From 2c157e49629c6998a3c9a8a36ac773d968c01f85 Mon Sep 17 00:00:00 2001 From: quenousimporte Date: Wed, 26 Apr 2023 17:58:06 +0200 Subject: [PATCH] added: conversjs integration changed: press review note name fixed: open md links in new tab --- index.html | 4 + libsignal-protocol.js | 36541 ++++++++++++++++++++++++++++++++++++++++ main.js | 18 +- 3 files changed, 36559 insertions(+), 4 deletions(-) create mode 100644 libsignal-protocol.js diff --git a/index.html b/index.html index f0e2505..7db0e1c 100644 --- a/index.html +++ b/index.html @@ -10,6 +10,10 @@ + + + + diff --git a/libsignal-protocol.js b/libsignal-protocol.js new file mode 100644 index 0000000..a6b1997 --- /dev/null +++ b/libsignal-protocol.js @@ -0,0 +1,36541 @@ +;(function(){ +var Internal = {}; +window.libsignal = {}; +// The Module object: Our interface to the outside world. We import +// and export values on it, and do the work to get that through +// closure compiler if necessary. There are various ways Module can be used: +// 1. Not defined. We create it here +// 2. A function parameter, function(Module) { ..generated code.. } +// 3. pre-run appended it, var Module = {}; ..generated code.. +// 4. External script tag defines var Module. +// We need to do an eval in order to handle the closure compiler +// case, where this code here is minified but Module was defined +// elsewhere (e.g. case 4 above). We also need to check if Module +// already exists (e.g. case 3 above). +// Note that if you want to run closure, and also to use Module +// after the generated code, you will need to define var Module = {}; +// before the code. Then that object will be used in the code, and you +// can continue to use Module afterwards as well. +var Module; +if (!Module) Module = (typeof Module !== 'undefined' ? Module : null) || {}; + +// Sometimes an existing Module object exists with properties +// meant to overwrite the default module functionality. Here +// we collect those properties and reapply _after_ we configure +// the current environment's defaults to avoid having to be so +// defensive during initialization. +var moduleOverrides = {}; +for (var key in Module) { + if (Module.hasOwnProperty(key)) { + moduleOverrides[key] = Module[key]; + } +} + +// The environment setup code below is customized to use Module. +// *** Environment setup code *** +var ENVIRONMENT_IS_NODE = typeof process === 'object' && typeof require === 'function'; +var ENVIRONMENT_IS_WEB = typeof window === 'object'; +var ENVIRONMENT_IS_WORKER = typeof importScripts === 'function'; +var ENVIRONMENT_IS_SHELL = !ENVIRONMENT_IS_WEB && !ENVIRONMENT_IS_NODE && !ENVIRONMENT_IS_WORKER; + +if (ENVIRONMENT_IS_NODE) { + // Expose functionality in the same simple way that the shells work + // Note that we pollute the global namespace here, otherwise we break in node + if (!Module['print']) Module['print'] = function print(x) { + process['stdout'].write(x + '\n'); + }; + if (!Module['printErr']) Module['printErr'] = function printErr(x) { + process['stderr'].write(x + '\n'); + }; + + var nodeFS = require('fs'); + var nodePath = require('path'); + + Module['read'] = function read(filename, binary) { + filename = nodePath['normalize'](filename); + var ret = nodeFS['readFileSync'](filename); + // The path is absolute if the normalized version is the same as the resolved. + if (!ret && filename != nodePath['resolve'](filename)) { + filename = path.join(__dirname, '..', 'src', filename); + ret = nodeFS['readFileSync'](filename); + } + if (ret && !binary) ret = ret.toString(); + return ret; + }; + + Module['readBinary'] = function readBinary(filename) { return Module['read'](filename, true) }; + + Module['load'] = function load(f) { + globalEval(read(f)); + }; + + if (process['argv'].length > 1) { + Module['thisProgram'] = process['argv'][1].replace(/\\/g, '/'); + } else { + Module['thisProgram'] = 'unknown-program'; + } + + Module['arguments'] = process['argv'].slice(2); + + if (typeof module !== 'undefined') { + module['exports'] = Module; + } + + process['on']('uncaughtException', function(ex) { + // suppress ExitStatus exceptions from showing an error + if (!(ex instanceof ExitStatus)) { + throw ex; + } + }); +} +else if (ENVIRONMENT_IS_SHELL) { + if (!Module['print']) Module['print'] = print; + if (typeof printErr != 'undefined') Module['printErr'] = printErr; // not present in v8 or older sm + + if (typeof read != 'undefined') { + Module['read'] = read; + } else { + Module['read'] = function read() { throw 'no read() available (jsc?)' }; + } + + Module['readBinary'] = function readBinary(f) { + if (typeof readbuffer === 'function') { + return new Uint8Array(readbuffer(f)); + } + var data = read(f, 'binary'); + assert(typeof data === 'object'); + return data; + }; + + if (typeof scriptArgs != 'undefined') { + Module['arguments'] = scriptArgs; + } else if (typeof arguments != 'undefined') { + Module['arguments'] = arguments; + } + + this['Module'] = Module; + +} +else if (ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER) { + Module['read'] = function read(url) { + var xhr = new XMLHttpRequest(); + xhr.open('GET', url, false); + xhr.send(null); + return xhr.responseText; + }; + + if (typeof arguments != 'undefined') { + Module['arguments'] = arguments; + } + + if (typeof console !== 'undefined') { + if (!Module['print']) Module['print'] = function print(x) { + console.log(x); + }; + if (!Module['printErr']) Module['printErr'] = function printErr(x) { + console.log(x); + }; + } else { + // Probably a worker, and without console.log. We can do very little here... + var TRY_USE_DUMP = false; + if (!Module['print']) Module['print'] = (TRY_USE_DUMP && (typeof(dump) !== "undefined") ? (function(x) { + dump(x); + }) : (function(x) { + // self.postMessage(x); // enable this if you want stdout to be sent as messages + })); + } + + if (ENVIRONMENT_IS_WEB) { + window['Module'] = Module; + } else { + Module['load'] = importScripts; + } +} +else { + // Unreachable because SHELL is dependant on the others + throw 'Unknown runtime environment. Where are we?'; +} + +function globalEval(x) { + eval.call(null, x); +} +if (!Module['load'] && Module['read']) { + Module['load'] = function load(f) { + globalEval(Module['read'](f)); + }; +} +if (!Module['print']) { + Module['print'] = function(){}; +} +if (!Module['printErr']) { + Module['printErr'] = Module['print']; +} +if (!Module['arguments']) { + Module['arguments'] = []; +} +if (!Module['thisProgram']) { + Module['thisProgram'] = './this.program'; +} + +// *** Environment setup code *** + +// Closure helpers +Module.print = Module['print']; +Module.printErr = Module['printErr']; + +// Callbacks +Module['preRun'] = []; +Module['postRun'] = []; + +// Merge back in the overrides +for (var key in moduleOverrides) { + if (moduleOverrides.hasOwnProperty(key)) { + Module[key] = moduleOverrides[key]; + } +} + + + +// === Preamble library stuff === + +// Documentation for the public APIs defined in this file must be updated in: +// site/source/docs/api_reference/preamble.js.rst +// A prebuilt local version of the documentation is available at: +// site/build/text/docs/api_reference/preamble.js.txt +// You can also build docs locally as HTML or other formats in site/ +// An online HTML version (which may be of a different version of Emscripten) +// is up at http://kripken.github.io/emscripten-site/docs/api_reference/preamble.js.html + +//======================================== +// Runtime code shared with compiler +//======================================== + +var Runtime = { + setTempRet0: function (value) { + tempRet0 = value; + }, + getTempRet0: function () { + return tempRet0; + }, + stackSave: function () { + return STACKTOP; + }, + stackRestore: function (stackTop) { + STACKTOP = stackTop; + }, + getNativeTypeSize: function (type) { + switch (type) { + case 'i1': case 'i8': return 1; + case 'i16': return 2; + case 'i32': return 4; + case 'i64': return 8; + case 'float': return 4; + case 'double': return 8; + default: { + if (type[type.length-1] === '*') { + return Runtime.QUANTUM_SIZE; // A pointer + } else if (type[0] === 'i') { + var bits = parseInt(type.substr(1)); + assert(bits % 8 === 0); + return bits/8; + } else { + return 0; + } + } + } + }, + getNativeFieldSize: function (type) { + return Math.max(Runtime.getNativeTypeSize(type), Runtime.QUANTUM_SIZE); + }, + STACK_ALIGN: 16, + getAlignSize: function (type, size, vararg) { + // we align i64s and doubles on 64-bit boundaries, unlike x86 + if (!vararg && (type == 'i64' || type == 'double')) return 8; + if (!type) return Math.min(size, 8); // align structures internally to 64 bits + return Math.min(size || (type ? Runtime.getNativeFieldSize(type) : 0), Runtime.QUANTUM_SIZE); + }, + dynCall: function (sig, ptr, args) { + if (args && args.length) { + if (!args.splice) args = Array.prototype.slice.call(args); + args.splice(0, 0, ptr); + return Module['dynCall_' + sig].apply(null, args); + } else { + return Module['dynCall_' + sig].call(null, ptr); + } + }, + functionPointers: [], + addFunction: function (func) { + for (var i = 0; i < Runtime.functionPointers.length; i++) { + if (!Runtime.functionPointers[i]) { + Runtime.functionPointers[i] = func; + return 2*(1 + i); + } + } + throw 'Finished up all reserved function pointers. Use a higher value for RESERVED_FUNCTION_POINTERS.'; + }, + removeFunction: function (index) { + Runtime.functionPointers[(index-2)/2] = null; + }, + getAsmConst: function (code, numArgs) { + // code is a constant string on the heap, so we can cache these + if (!Runtime.asmConstCache) Runtime.asmConstCache = {}; + var func = Runtime.asmConstCache[code]; + if (func) return func; + var args = []; + for (var i = 0; i < numArgs; i++) { + args.push(String.fromCharCode(36) + i); // $0, $1 etc + } + var source = Pointer_stringify(code); + if (source[0] === '"') { + // tolerate EM_ASM("..code..") even though EM_ASM(..code..) is correct + if (source.indexOf('"', 1) === source.length-1) { + source = source.substr(1, source.length-2); + } else { + // something invalid happened, e.g. EM_ASM("..code($0)..", input) + abort('invalid EM_ASM input |' + source + '|. Please use EM_ASM(..code..) (no quotes) or EM_ASM({ ..code($0).. }, input) (to input values)'); + } + } + try { + // Module is the only 'upvar', which we provide directly. We also provide FS for legacy support. + var evalled = eval('(function(Module, FS) { return function(' + args.join(',') + '){ ' + source + ' } })')(Module, typeof FS !== 'undefined' ? FS : null); + } catch(e) { + Module.printErr('error in executing inline EM_ASM code: ' + e + ' on: \n\n' + source + '\n\nwith args |' + args + '| (make sure to use the right one out of EM_ASM, EM_ASM_ARGS, etc.)'); + throw e; + } + return Runtime.asmConstCache[code] = evalled; + }, + warnOnce: function (text) { + if (!Runtime.warnOnce.shown) Runtime.warnOnce.shown = {}; + if (!Runtime.warnOnce.shown[text]) { + Runtime.warnOnce.shown[text] = 1; + Module.printErr(text); + } + }, + funcWrappers: {}, + getFuncWrapper: function (func, sig) { + assert(sig); + if (!Runtime.funcWrappers[sig]) { + Runtime.funcWrappers[sig] = {}; + } + var sigCache = Runtime.funcWrappers[sig]; + if (!sigCache[func]) { + sigCache[func] = function dynCall_wrapper() { + return Runtime.dynCall(sig, func, arguments); + }; + } + return sigCache[func]; + }, + UTF8Processor: function () { + var buffer = []; + var needed = 0; + this.processCChar = function (code) { + code = code & 0xFF; + + if (buffer.length == 0) { + if ((code & 0x80) == 0x00) { // 0xxxxxxx + return String.fromCharCode(code); + } + buffer.push(code); + if ((code & 0xE0) == 0xC0) { // 110xxxxx + needed = 1; + } else if ((code & 0xF0) == 0xE0) { // 1110xxxx + needed = 2; + } else { // 11110xxx + needed = 3; + } + return ''; + } + + if (needed) { + buffer.push(code); + needed--; + if (needed > 0) return ''; + } + + var c1 = buffer[0]; + var c2 = buffer[1]; + var c3 = buffer[2]; + var c4 = buffer[3]; + var ret; + if (buffer.length == 2) { + ret = String.fromCharCode(((c1 & 0x1F) << 6) | (c2 & 0x3F)); + } else if (buffer.length == 3) { + ret = String.fromCharCode(((c1 & 0x0F) << 12) | ((c2 & 0x3F) << 6) | (c3 & 0x3F)); + } else { + // http://mathiasbynens.be/notes/javascript-encoding#surrogate-formulae + var codePoint = ((c1 & 0x07) << 18) | ((c2 & 0x3F) << 12) | + ((c3 & 0x3F) << 6) | (c4 & 0x3F); + ret = String.fromCharCode( + (((codePoint - 0x10000) / 0x400)|0) + 0xD800, + (codePoint - 0x10000) % 0x400 + 0xDC00); + } + buffer.length = 0; + return ret; + } + this.processJSString = function processJSString(string) { + /* TODO: use TextEncoder when present, + var encoder = new TextEncoder(); + encoder['encoding'] = "utf-8"; + var utf8Array = encoder['encode'](aMsg.data); + */ + string = unescape(encodeURIComponent(string)); + var ret = []; + for (var i = 0; i < string.length; i++) { + ret.push(string.charCodeAt(i)); + } + return ret; + } + }, + getCompilerSetting: function (name) { + throw 'You must build with -s RETAIN_COMPILER_SETTINGS=1 for Runtime.getCompilerSetting or emscripten_get_compiler_setting to work'; + }, + stackAlloc: function (size) { var ret = STACKTOP;STACKTOP = (STACKTOP + size)|0;STACKTOP = (((STACKTOP)+15)&-16); return ret; }, + staticAlloc: function (size) { var ret = STATICTOP;STATICTOP = (STATICTOP + size)|0;STATICTOP = (((STATICTOP)+15)&-16); return ret; }, + dynamicAlloc: function (size) { var ret = DYNAMICTOP;DYNAMICTOP = (DYNAMICTOP + size)|0;DYNAMICTOP = (((DYNAMICTOP)+15)&-16); if (DYNAMICTOP >= TOTAL_MEMORY) enlargeMemory();; return ret; }, + alignMemory: function (size,quantum) { var ret = size = Math.ceil((size)/(quantum ? quantum : 16))*(quantum ? quantum : 16); return ret; }, + makeBigInt: function (low,high,unsigned) { var ret = (unsigned ? ((+((low>>>0)))+((+((high>>>0)))*4294967296.0)) : ((+((low>>>0)))+((+((high|0)))*4294967296.0))); return ret; }, + GLOBAL_BASE: 8, + QUANTUM_SIZE: 4, + __dummy__: 0 +} + + +Module['Runtime'] = Runtime; + + + + + + + + + +//======================================== +// Runtime essentials +//======================================== + +var __THREW__ = 0; // Used in checking for thrown exceptions. + +var ABORT = false; // whether we are quitting the application. no code should run after this. set in exit() and abort() +var EXITSTATUS = 0; + +var undef = 0; +// tempInt is used for 32-bit signed values or smaller. tempBigInt is used +// for 32-bit unsigned values or more than 32 bits. TODO: audit all uses of tempInt +var tempValue, tempInt, tempBigInt, tempInt2, tempBigInt2, tempPair, tempBigIntI, tempBigIntR, tempBigIntS, tempBigIntP, tempBigIntD, tempDouble, tempFloat; +var tempI64, tempI64b; +var tempRet0, tempRet1, tempRet2, tempRet3, tempRet4, tempRet5, tempRet6, tempRet7, tempRet8, tempRet9; + +function assert(condition, text) { + if (!condition) { + abort('Assertion failed: ' + text); + } +} + +var globalScope = this; + +// Returns the C function with a specified identifier (for C++, you need to do manual name mangling) +function getCFunc(ident) { + var func = Module['_' + ident]; // closure exported function + if (!func) { + try { + func = eval('_' + ident); // explicit lookup + } catch(e) {} + } + assert(func, 'Cannot call unknown function ' + ident + ' (perhaps LLVM optimizations or closure removed it?)'); + return func; +} + +var cwrap, ccall; +(function(){ + var JSfuncs = { + // Helpers for cwrap -- it can't refer to Runtime directly because it might + // be renamed by closure, instead it calls JSfuncs['stackSave'].body to find + // out what the minified function name is. + 'stackSave': function() { + Runtime.stackSave() + }, + 'stackRestore': function() { + Runtime.stackRestore() + }, + // type conversion from js to c + 'arrayToC' : function(arr) { + var ret = Runtime.stackAlloc(arr.length); + writeArrayToMemory(arr, ret); + return ret; + }, + 'stringToC' : function(str) { + var ret = 0; + if (str !== null && str !== undefined && str !== 0) { // null string + // at most 4 bytes per UTF-8 code point, +1 for the trailing '\0' + ret = Runtime.stackAlloc((str.length << 2) + 1); + writeStringToMemory(str, ret); + } + return ret; + } + }; + // For fast lookup of conversion functions + var toC = {'string' : JSfuncs['stringToC'], 'array' : JSfuncs['arrayToC']}; + + // C calling interface. + ccall = function ccallFunc(ident, returnType, argTypes, args) { + var func = getCFunc(ident); + var cArgs = []; + var stack = 0; + if (args) { + for (var i = 0; i < args.length; i++) { + var converter = toC[argTypes[i]]; + if (converter) { + if (stack === 0) stack = Runtime.stackSave(); + cArgs[i] = converter(args[i]); + } else { + cArgs[i] = args[i]; + } + } + } + var ret = func.apply(null, cArgs); + if (returnType === 'string') ret = Pointer_stringify(ret); + if (stack !== 0) Runtime.stackRestore(stack); + return ret; + } + + var sourceRegex = /^function\s*\(([^)]*)\)\s*{\s*([^*]*?)[\s;]*(?:return\s*(.*?)[;\s]*)?}$/; + function parseJSFunc(jsfunc) { + // Match the body and the return value of a javascript function source + var parsed = jsfunc.toString().match(sourceRegex).slice(1); + return {arguments : parsed[0], body : parsed[1], returnValue: parsed[2]} + } + var JSsource = {}; + for (var fun in JSfuncs) { + if (JSfuncs.hasOwnProperty(fun)) { + // Elements of toCsource are arrays of three items: + // the code, and the return value + JSsource[fun] = parseJSFunc(JSfuncs[fun]); + } + } + + + cwrap = function cwrap(ident, returnType, argTypes) { + argTypes = argTypes || []; + var cfunc = getCFunc(ident); + // When the function takes numbers and returns a number, we can just return + // the original function + var numericArgs = argTypes.every(function(type){ return type === 'number'}); + var numericRet = (returnType !== 'string'); + if ( numericRet && numericArgs) { + return cfunc; + } + // Creation of the arguments list (["$1","$2",...,"$nargs"]) + var argNames = argTypes.map(function(x,i){return '$'+i}); + var funcstr = "(function(" + argNames.join(',') + ") {"; + var nargs = argTypes.length; + if (!numericArgs) { + // Generate the code needed to convert the arguments from javascript + // values to pointers + funcstr += 'var stack = ' + JSsource['stackSave'].body + ';'; + for (var i = 0; i < nargs; i++) { + var arg = argNames[i], type = argTypes[i]; + if (type === 'number') continue; + var convertCode = JSsource[type + 'ToC']; // [code, return] + funcstr += 'var ' + convertCode.arguments + ' = ' + arg + ';'; + funcstr += convertCode.body + ';'; + funcstr += arg + '=' + convertCode.returnValue + ';'; + } + } + + // When the code is compressed, the name of cfunc is not literally 'cfunc' anymore + var cfuncname = parseJSFunc(function(){return cfunc}).returnValue; + // Call the function + funcstr += 'var ret = ' + cfuncname + '(' + argNames.join(',') + ');'; + if (!numericRet) { // Return type can only by 'string' or 'number' + // Convert the result to a string + var strgfy = parseJSFunc(function(){return Pointer_stringify}).returnValue; + funcstr += 'ret = ' + strgfy + '(ret);'; + } + if (!numericArgs) { + // If we had a stack, restore it + funcstr += JSsource['stackRestore'].body.replace('()', '(stack)') + ';'; + } + funcstr += 'return ret})'; + return eval(funcstr); + }; +})(); +Module["cwrap"] = cwrap; +Module["ccall"] = ccall; + + +function setValue(ptr, value, type, noSafe) { + type = type || 'i8'; + if (type.charAt(type.length-1) === '*') type = 'i32'; // pointers are 32-bit + switch(type) { + case 'i1': HEAP8[((ptr)>>0)]=value; break; + case 'i8': HEAP8[((ptr)>>0)]=value; break; + case 'i16': HEAP16[((ptr)>>1)]=value; break; + case 'i32': HEAP32[((ptr)>>2)]=value; break; + case 'i64': (tempI64 = [value>>>0,(tempDouble=value,(+(Math_abs(tempDouble))) >= 1.0 ? (tempDouble > 0.0 ? ((Math_min((+(Math_floor((tempDouble)/4294967296.0))), 4294967295.0))|0)>>>0 : (~~((+(Math_ceil((tempDouble - +(((~~(tempDouble)))>>>0))/4294967296.0)))))>>>0) : 0)],HEAP32[((ptr)>>2)]=tempI64[0],HEAP32[(((ptr)+(4))>>2)]=tempI64[1]); break; + case 'float': HEAPF32[((ptr)>>2)]=value; break; + case 'double': HEAPF64[((ptr)>>3)]=value; break; + default: abort('invalid type for setValue: ' + type); + } +} +Module['setValue'] = setValue; + + +function getValue(ptr, type, noSafe) { + type = type || 'i8'; + if (type.charAt(type.length-1) === '*') type = 'i32'; // pointers are 32-bit + switch(type) { + case 'i1': return HEAP8[((ptr)>>0)]; + case 'i8': return HEAP8[((ptr)>>0)]; + case 'i16': return HEAP16[((ptr)>>1)]; + case 'i32': return HEAP32[((ptr)>>2)]; + case 'i64': return HEAP32[((ptr)>>2)]; + case 'float': return HEAPF32[((ptr)>>2)]; + case 'double': return HEAPF64[((ptr)>>3)]; + default: abort('invalid type for setValue: ' + type); + } + return null; +} +Module['getValue'] = getValue; + +var ALLOC_NORMAL = 0; // Tries to use _malloc() +var ALLOC_STACK = 1; // Lives for the duration of the current function call +var ALLOC_STATIC = 2; // Cannot be freed +var ALLOC_DYNAMIC = 3; // Cannot be freed except through sbrk +var ALLOC_NONE = 4; // Do not allocate +Module['ALLOC_NORMAL'] = ALLOC_NORMAL; +Module['ALLOC_STACK'] = ALLOC_STACK; +Module['ALLOC_STATIC'] = ALLOC_STATIC; +Module['ALLOC_DYNAMIC'] = ALLOC_DYNAMIC; +Module['ALLOC_NONE'] = ALLOC_NONE; + +// allocate(): This is for internal use. You can use it yourself as well, but the interface +// is a little tricky (see docs right below). The reason is that it is optimized +// for multiple syntaxes to save space in generated code. So you should +// normally not use allocate(), and instead allocate memory using _malloc(), +// initialize it with setValue(), and so forth. +// @slab: An array of data, or a number. If a number, then the size of the block to allocate, +// in *bytes* (note that this is sometimes confusing: the next parameter does not +// affect this!) +// @types: Either an array of types, one for each byte (or 0 if no type at that position), +// or a single type which is used for the entire block. This only matters if there +// is initial data - if @slab is a number, then this does not matter at all and is +// ignored. +// @allocator: How to allocate memory, see ALLOC_* +function allocate(slab, types, allocator, ptr) { + var zeroinit, size; + if (typeof slab === 'number') { + zeroinit = true; + size = slab; + } else { + zeroinit = false; + size = slab.length; + } + + var singleType = typeof types === 'string' ? types : null; + + var ret; + if (allocator == ALLOC_NONE) { + ret = ptr; + } else { + ret = [_malloc, Runtime.stackAlloc, Runtime.staticAlloc, Runtime.dynamicAlloc][allocator === undefined ? ALLOC_STATIC : allocator](Math.max(size, singleType ? 1 : types.length)); + } + + if (zeroinit) { + var ptr = ret, stop; + assert((ret & 3) == 0); + stop = ret + (size & ~3); + for (; ptr < stop; ptr += 4) { + HEAP32[((ptr)>>2)]=0; + } + stop = ret + size; + while (ptr < stop) { + HEAP8[((ptr++)>>0)]=0; + } + return ret; + } + + if (singleType === 'i8') { + if (slab.subarray || slab.slice) { + HEAPU8.set(slab, ret); + } else { + HEAPU8.set(new Uint8Array(slab), ret); + } + return ret; + } + + var i = 0, type, typeSize, previousType; + while (i < size) { + var curr = slab[i]; + + if (typeof curr === 'function') { + curr = Runtime.getFunctionIndex(curr); + } + + type = singleType || types[i]; + if (type === 0) { + i++; + continue; + } + + if (type == 'i64') type = 'i32'; // special case: we have one i32 here, and one i32 later + + setValue(ret+i, curr, type); + + // no need to look up size unless type changes, so cache it + if (previousType !== type) { + typeSize = Runtime.getNativeTypeSize(type); + previousType = type; + } + i += typeSize; + } + + return ret; +} +Module['allocate'] = allocate; + +function Pointer_stringify(ptr, /* optional */ length) { + if (length === 0 || !ptr) return ''; + // TODO: use TextDecoder + // Find the length, and check for UTF while doing so + var hasUtf = false; + var t; + var i = 0; + while (1) { + t = HEAPU8[(((ptr)+(i))>>0)]; + if (t >= 128) hasUtf = true; + else if (t == 0 && !length) break; + i++; + if (length && i == length) break; + } + if (!length) length = i; + + var ret = ''; + + if (!hasUtf) { + var MAX_CHUNK = 1024; // split up into chunks, because .apply on a huge string can overflow the stack + var curr; + while (length > 0) { + curr = String.fromCharCode.apply(String, HEAPU8.subarray(ptr, ptr + Math.min(length, MAX_CHUNK))); + ret = ret ? ret + curr : curr; + ptr += MAX_CHUNK; + length -= MAX_CHUNK; + } + return ret; + } + + var utf8 = new Runtime.UTF8Processor(); + for (i = 0; i < length; i++) { + t = HEAPU8[(((ptr)+(i))>>0)]; + ret += utf8.processCChar(t); + } + return ret; +} +Module['Pointer_stringify'] = Pointer_stringify; + +function UTF16ToString(ptr) { + var i = 0; + + var str = ''; + while (1) { + var codeUnit = HEAP16[(((ptr)+(i*2))>>1)]; + if (codeUnit == 0) + return str; + ++i; + // fromCharCode constructs a character from a UTF-16 code unit, so we can pass the UTF16 string right through. + str += String.fromCharCode(codeUnit); + } +} +Module['UTF16ToString'] = UTF16ToString; + + +function stringToUTF16(str, outPtr) { + for(var i = 0; i < str.length; ++i) { + // charCodeAt returns a UTF-16 encoded code unit, so it can be directly written to the HEAP. + var codeUnit = str.charCodeAt(i); // possibly a lead surrogate + HEAP16[(((outPtr)+(i*2))>>1)]=codeUnit; + } + // Null-terminate the pointer to the HEAP. + HEAP16[(((outPtr)+(str.length*2))>>1)]=0; +} +Module['stringToUTF16'] = stringToUTF16; + + +function UTF32ToString(ptr) { + var i = 0; + + var str = ''; + while (1) { + var utf32 = HEAP32[(((ptr)+(i*4))>>2)]; + if (utf32 == 0) + return str; + ++i; + // Gotcha: fromCharCode constructs a character from a UTF-16 encoded code (pair), not from a Unicode code point! So encode the code point to UTF-16 for constructing. + if (utf32 >= 0x10000) { + var ch = utf32 - 0x10000; + str += String.fromCharCode(0xD800 | (ch >> 10), 0xDC00 | (ch & 0x3FF)); + } else { + str += String.fromCharCode(utf32); + } + } +} +Module['UTF32ToString'] = UTF32ToString; + + +function stringToUTF32(str, outPtr) { + var iChar = 0; + for(var iCodeUnit = 0; iCodeUnit < str.length; ++iCodeUnit) { + // Gotcha: charCodeAt returns a 16-bit word that is a UTF-16 encoded code unit, not a Unicode code point of the character! We must decode the string to UTF-32 to the heap. + var codeUnit = str.charCodeAt(iCodeUnit); // possibly a lead surrogate + if (codeUnit >= 0xD800 && codeUnit <= 0xDFFF) { + var trailSurrogate = str.charCodeAt(++iCodeUnit); + codeUnit = 0x10000 + ((codeUnit & 0x3FF) << 10) | (trailSurrogate & 0x3FF); + } + HEAP32[(((outPtr)+(iChar*4))>>2)]=codeUnit; + ++iChar; + } + // Null-terminate the pointer to the HEAP. + HEAP32[(((outPtr)+(iChar*4))>>2)]=0; +} +Module['stringToUTF32'] = stringToUTF32; + +function demangle(func) { + var hasLibcxxabi = !!Module['___cxa_demangle']; + if (hasLibcxxabi) { + try { + var buf = _malloc(func.length); + writeStringToMemory(func.substr(1), buf); + var status = _malloc(4); + var ret = Module['___cxa_demangle'](buf, 0, 0, status); + if (getValue(status, 'i32') === 0 && ret) { + return Pointer_stringify(ret); + } + // otherwise, libcxxabi failed, we can try ours which may return a partial result + } catch(e) { + // failure when using libcxxabi, we can try ours which may return a partial result + } finally { + if (buf) _free(buf); + if (status) _free(status); + if (ret) _free(ret); + } + } + var i = 3; + // params, etc. + var basicTypes = { + 'v': 'void', + 'b': 'bool', + 'c': 'char', + 's': 'short', + 'i': 'int', + 'l': 'long', + 'f': 'float', + 'd': 'double', + 'w': 'wchar_t', + 'a': 'signed char', + 'h': 'unsigned char', + 't': 'unsigned short', + 'j': 'unsigned int', + 'm': 'unsigned long', + 'x': 'long long', + 'y': 'unsigned long long', + 'z': '...' + }; + var subs = []; + var first = true; + function dump(x) { + //return; + if (x) Module.print(x); + Module.print(func); + var pre = ''; + for (var a = 0; a < i; a++) pre += ' '; + Module.print (pre + '^'); + } + function parseNested() { + i++; + if (func[i] === 'K') i++; // ignore const + var parts = []; + while (func[i] !== 'E') { + if (func[i] === 'S') { // substitution + i++; + var next = func.indexOf('_', i); + var num = func.substring(i, next) || 0; + parts.push(subs[num] || '?'); + i = next+1; + continue; + } + if (func[i] === 'C') { // constructor + parts.push(parts[parts.length-1]); + i += 2; + continue; + } + var size = parseInt(func.substr(i)); + var pre = size.toString().length; + if (!size || !pre) { i--; break; } // counter i++ below us + var curr = func.substr(i + pre, size); + parts.push(curr); + subs.push(curr); + i += pre + size; + } + i++; // skip E + return parts; + } + function parse(rawList, limit, allowVoid) { // main parser + limit = limit || Infinity; + var ret = '', list = []; + function flushList() { + return '(' + list.join(', ') + ')'; + } + var name; + if (func[i] === 'N') { + // namespaced N-E + name = parseNested().join('::'); + limit--; + if (limit === 0) return rawList ? [name] : name; + } else { + // not namespaced + if (func[i] === 'K' || (first && func[i] === 'L')) i++; // ignore const and first 'L' + var size = parseInt(func.substr(i)); + if (size) { + var pre = size.toString().length; + name = func.substr(i + pre, size); + i += pre + size; + } + } + first = false; + if (func[i] === 'I') { + i++; + var iList = parse(true); + var iRet = parse(true, 1, true); + ret += iRet[0] + ' ' + name + '<' + iList.join(', ') + '>'; + } else { + ret = name; + } + paramLoop: while (i < func.length && limit-- > 0) { + //dump('paramLoop'); + var c = func[i++]; + if (c in basicTypes) { + list.push(basicTypes[c]); + } else { + switch (c) { + case 'P': list.push(parse(true, 1, true)[0] + '*'); break; // pointer + case 'R': list.push(parse(true, 1, true)[0] + '&'); break; // reference + case 'L': { // literal + i++; // skip basic type + var end = func.indexOf('E', i); + var size = end - i; + list.push(func.substr(i, size)); + i += size + 2; // size + 'EE' + break; + } + case 'A': { // array + var size = parseInt(func.substr(i)); + i += size.toString().length; + if (func[i] !== '_') throw '?'; + i++; // skip _ + list.push(parse(true, 1, true)[0] + ' [' + size + ']'); + break; + } + case 'E': break paramLoop; + default: ret += '?' + c; break paramLoop; + } + } + } + if (!allowVoid && list.length === 1 && list[0] === 'void') list = []; // avoid (void) + if (rawList) { + if (ret) { + list.push(ret + '?'); + } + return list; + } else { + return ret + flushList(); + } + } + var parsed = func; + try { + // Special-case the entry point, since its name differs from other name mangling. + if (func == 'Object._main' || func == '_main') { + return 'main()'; + } + if (typeof func === 'number') func = Pointer_stringify(func); + if (func[0] !== '_') return func; + if (func[1] !== '_') return func; // C function + if (func[2] !== 'Z') return func; + switch (func[3]) { + case 'n': return 'operator new()'; + case 'd': return 'operator delete()'; + } + parsed = parse(); + } catch(e) { + parsed += '?'; + } + if (parsed.indexOf('?') >= 0 && !hasLibcxxabi) { + Runtime.warnOnce('warning: a problem occurred in builtin C++ name demangling; build with -s DEMANGLE_SUPPORT=1 to link in libcxxabi demangling'); + } + return parsed; +} + +function demangleAll(text) { + return text.replace(/__Z[\w\d_]+/g, function(x) { var y = demangle(x); return x === y ? x : (x + ' [' + y + ']') }); +} + +function jsStackTrace() { + var err = new Error(); + if (!err.stack) { + // IE10+ special cases: It does have callstack info, but it is only populated if an Error object is thrown, + // so try that as a special-case. + try { + throw new Error(0); + } catch(e) { + err = e; + } + if (!err.stack) { + return '(no stack trace available)'; + } + } + return err.stack.toString(); +} + +function stackTrace() { + return demangleAll(jsStackTrace()); +} +Module['stackTrace'] = stackTrace; + +// Memory management + +var PAGE_SIZE = 4096; +function alignMemoryPage(x) { + return (x+4095)&-4096; +} + +var HEAP; +var HEAP8, HEAPU8, HEAP16, HEAPU16, HEAP32, HEAPU32, HEAPF32, HEAPF64; + +var STATIC_BASE = 0, STATICTOP = 0, staticSealed = false; // static area +var STACK_BASE = 0, STACKTOP = 0, STACK_MAX = 0; // stack area +var DYNAMIC_BASE = 0, DYNAMICTOP = 0; // dynamic area handled by sbrk + +function enlargeMemory() { + abort('Cannot enlarge memory arrays. Either (1) compile with -s TOTAL_MEMORY=X with X higher than the current value ' + TOTAL_MEMORY + ', (2) compile with ALLOW_MEMORY_GROWTH which adjusts the size at runtime but prevents some optimizations, or (3) set Module.TOTAL_MEMORY before the program runs.'); +} + + +var TOTAL_STACK = Module['TOTAL_STACK'] || 5242880; +var TOTAL_MEMORY = Module['TOTAL_MEMORY'] || 16777216; +var FAST_MEMORY = Module['FAST_MEMORY'] || 2097152; + +var totalMemory = 64*1024; +while (totalMemory < TOTAL_MEMORY || totalMemory < 2*TOTAL_STACK) { + if (totalMemory < 16*1024*1024) { + totalMemory *= 2; + } else { + totalMemory += 16*1024*1024 + } +} +if (totalMemory !== TOTAL_MEMORY) { + Module.printErr('increasing TOTAL_MEMORY to ' + totalMemory + ' to be compliant with the asm.js spec'); + TOTAL_MEMORY = totalMemory; +} + +// Initialize the runtime's memory +// check for full engine support (use string 'subarray' to avoid closure compiler confusion) +assert(typeof Int32Array !== 'undefined' && typeof Float64Array !== 'undefined' && !!(new Int32Array(1)['subarray']) && !!(new Int32Array(1)['set']), + 'JS engine does not provide full typed array support'); + +var buffer = new ArrayBuffer(TOTAL_MEMORY); +HEAP8 = new Int8Array(buffer); +HEAP16 = new Int16Array(buffer); +HEAP32 = new Int32Array(buffer); +HEAPU8 = new Uint8Array(buffer); +HEAPU16 = new Uint16Array(buffer); +HEAPU32 = new Uint32Array(buffer); +HEAPF32 = new Float32Array(buffer); +HEAPF64 = new Float64Array(buffer); + +// Endianness check (note: assumes compiler arch was little-endian) +HEAP32[0] = 255; +assert(HEAPU8[0] === 255 && HEAPU8[3] === 0, 'Typed arrays 2 must be run on a little-endian system'); + +Module['HEAP'] = HEAP; +Module['buffer'] = buffer; +Module['HEAP8'] = HEAP8; +Module['HEAP16'] = HEAP16; +Module['HEAP32'] = HEAP32; +Module['HEAPU8'] = HEAPU8; +Module['HEAPU16'] = HEAPU16; +Module['HEAPU32'] = HEAPU32; +Module['HEAPF32'] = HEAPF32; +Module['HEAPF64'] = HEAPF64; + +function callRuntimeCallbacks(callbacks) { + while(callbacks.length > 0) { + var callback = callbacks.shift(); + if (typeof callback == 'function') { + callback(); + continue; + } + var func = callback.func; + if (typeof func === 'number') { + if (callback.arg === undefined) { + Runtime.dynCall('v', func); + } else { + Runtime.dynCall('vi', func, [callback.arg]); + } + } else { + func(callback.arg === undefined ? null : callback.arg); + } + } +} + +var __ATPRERUN__ = []; // functions called before the runtime is initialized +var __ATINIT__ = []; // functions called during startup +var __ATMAIN__ = []; // functions called when main() is to be run +var __ATEXIT__ = []; // functions called during shutdown +var __ATPOSTRUN__ = []; // functions called after the runtime has exited + +var runtimeInitialized = false; +var runtimeExited = false; + +function preRun() { + // compatibility - merge in anything from Module['preRun'] at this time + if (Module['preRun']) { + if (typeof Module['preRun'] == 'function') Module['preRun'] = [Module['preRun']]; + while (Module['preRun'].length) { + addOnPreRun(Module['preRun'].shift()); + } + } + callRuntimeCallbacks(__ATPRERUN__); +} + +function ensureInitRuntime() { + if (runtimeInitialized) return; + runtimeInitialized = true; + callRuntimeCallbacks(__ATINIT__); +} + +function preMain() { + callRuntimeCallbacks(__ATMAIN__); +} + +function exitRuntime() { + callRuntimeCallbacks(__ATEXIT__); + runtimeExited = true; +} + +function postRun() { + // compatibility - merge in anything from Module['postRun'] at this time + if (Module['postRun']) { + if (typeof Module['postRun'] == 'function') Module['postRun'] = [Module['postRun']]; + while (Module['postRun'].length) { + addOnPostRun(Module['postRun'].shift()); + } + } + callRuntimeCallbacks(__ATPOSTRUN__); +} + +function addOnPreRun(cb) { + __ATPRERUN__.unshift(cb); +} +Module['addOnPreRun'] = Module.addOnPreRun = addOnPreRun; + +function addOnInit(cb) { + __ATINIT__.unshift(cb); +} +Module['addOnInit'] = Module.addOnInit = addOnInit; + +function addOnPreMain(cb) { + __ATMAIN__.unshift(cb); +} +Module['addOnPreMain'] = Module.addOnPreMain = addOnPreMain; + +function addOnExit(cb) { + __ATEXIT__.unshift(cb); +} +Module['addOnExit'] = Module.addOnExit = addOnExit; + +function addOnPostRun(cb) { + __ATPOSTRUN__.unshift(cb); +} +Module['addOnPostRun'] = Module.addOnPostRun = addOnPostRun; + +// Tools + + +function intArrayFromString(stringy, dontAddNull, length /* optional */) { + var ret = (new Runtime.UTF8Processor()).processJSString(stringy); + if (length) { + ret.length = length; + } + if (!dontAddNull) { + ret.push(0); + } + return ret; +} +Module['intArrayFromString'] = intArrayFromString; + +function intArrayToString(array) { + var ret = []; + for (var i = 0; i < array.length; i++) { + var chr = array[i]; + if (chr > 0xFF) { + chr &= 0xFF; + } + ret.push(String.fromCharCode(chr)); + } + return ret.join(''); +} +Module['intArrayToString'] = intArrayToString; + +function writeStringToMemory(string, buffer, dontAddNull) { + var array = intArrayFromString(string, dontAddNull); + var i = 0; + while (i < array.length) { + var chr = array[i]; + HEAP8[(((buffer)+(i))>>0)]=chr; + i = i + 1; + } +} +Module['writeStringToMemory'] = writeStringToMemory; + +function writeArrayToMemory(array, buffer) { + for (var i = 0; i < array.length; i++) { + HEAP8[(((buffer)+(i))>>0)]=array[i]; + } +} +Module['writeArrayToMemory'] = writeArrayToMemory; + +function writeAsciiToMemory(str, buffer, dontAddNull) { + for (var i = 0; i < str.length; i++) { + HEAP8[(((buffer)+(i))>>0)]=str.charCodeAt(i); + } + if (!dontAddNull) HEAP8[(((buffer)+(str.length))>>0)]=0; +} +Module['writeAsciiToMemory'] = writeAsciiToMemory; + +function unSign(value, bits, ignore) { + if (value >= 0) { + return value; + } + return bits <= 32 ? 2*Math.abs(1 << (bits-1)) + value // Need some trickery, since if bits == 32, we are right at the limit of the bits JS uses in bitshifts + : Math.pow(2, bits) + value; +} +function reSign(value, bits, ignore) { + if (value <= 0) { + return value; + } + var half = bits <= 32 ? Math.abs(1 << (bits-1)) // abs is needed if bits == 32 + : Math.pow(2, bits-1); + if (value >= half && (bits <= 32 || value > half)) { // for huge values, we can hit the precision limit and always get true here. so don't do that + // but, in general there is no perfect solution here. With 64-bit ints, we get rounding and errors + // TODO: In i64 mode 1, resign the two parts separately and safely + value = -2*half + value; // Cannot bitshift half, as it may be at the limit of the bits JS uses in bitshifts + } + return value; +} + +// check for imul support, and also for correctness ( https://bugs.webkit.org/show_bug.cgi?id=126345 ) +if (!Math['imul'] || Math['imul'](0xffffffff, 5) !== -5) Math['imul'] = function imul(a, b) { + var ah = a >>> 16; + var al = a & 0xffff; + var bh = b >>> 16; + var bl = b & 0xffff; + return (al*bl + ((ah*bl + al*bh) << 16))|0; +}; +Math.imul = Math['imul']; + + +var Math_abs = Math.abs; +var Math_cos = Math.cos; +var Math_sin = Math.sin; +var Math_tan = Math.tan; +var Math_acos = Math.acos; +var Math_asin = Math.asin; +var Math_atan = Math.atan; +var Math_atan2 = Math.atan2; +var Math_exp = Math.exp; +var Math_log = Math.log; +var Math_sqrt = Math.sqrt; +var Math_ceil = Math.ceil; +var Math_floor = Math.floor; +var Math_pow = Math.pow; +var Math_imul = Math.imul; +var Math_fround = Math.fround; +var Math_min = Math.min; + +// A counter of dependencies for calling run(). If we need to +// do asynchronous work before running, increment this and +// decrement it. Incrementing must happen in a place like +// PRE_RUN_ADDITIONS (used by emcc to add file preloading). +// Note that you can add dependencies in preRun, even though +// it happens right before run - run will be postponed until +// the dependencies are met. +var runDependencies = 0; +var runDependencyWatcher = null; +var dependenciesFulfilled = null; // overridden to take different actions when all run dependencies are fulfilled + +function addRunDependency(id) { + runDependencies++; + if (Module['monitorRunDependencies']) { + Module['monitorRunDependencies'](runDependencies); + } +} +Module['addRunDependency'] = addRunDependency; +function removeRunDependency(id) { + runDependencies--; + if (Module['monitorRunDependencies']) { + Module['monitorRunDependencies'](runDependencies); + } + if (runDependencies == 0) { + if (runDependencyWatcher !== null) { + clearInterval(runDependencyWatcher); + runDependencyWatcher = null; + } + if (dependenciesFulfilled) { + var callback = dependenciesFulfilled; + dependenciesFulfilled = null; + callback(); // can add another dependenciesFulfilled + } + } +} +Module['removeRunDependency'] = removeRunDependency; + +Module["preloadedImages"] = {}; // maps url to image data +Module["preloadedAudios"] = {}; // maps url to audio data + + +var memoryInitializer = null; + +// === Body === + + + + + +STATIC_BASE = 8; + +STATICTOP = STATIC_BASE + 33040; + /* global initializers */ __ATINIT__.push(); + + +/* memory initializer */ 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"i8", ALLOC_NONE, Runtime.GLOBAL_BASE); +/* memory initializer */ allocate([71,111,172,254,226,42,59,255,179,0,215,1,33,128,241,0,234,252,13,1,184,79,8,0,110,30,73,255,246,141,189,0,170,207,218,1,74,154,69,255,138,246,49,255,155,32,100,0,125,74,105,255,90,85,61,255,35,229,177,255,62,125,193,255,153,86,188,1,73,120,212,0,209,123,246,254,135,209,38,255,151,58,44,1,92,69,214,255,14,12,88,255,252,153,166,255,253,207,112,255,60,78,83,255,227,124,110,0,180,96,252,255,53,117,33,254,164,220,82,255,41,1,27,255,38,164,166,255,164,99,169,254,61,144,70,255,192,166,18,0,107,250,66,0,197,65,50,0,1,179,18,255,255,104,1,255,43,153,35,255,80,111,168,0,110,175,168,0,41,105,45,255,219,14,205,255,164,233,140,254,43,1,118,0,233,67,195,0,178,82,159,255,138,87,122,255,212,238,90,255,144,35,124,254,25,140,164,0,251,215,44,254,133,70,107,255,101,227,80,254,92,169,55,0,215,42,49,0,114,180,85,255,33,232,27,1,172,213,25,0,62,176,123,254,32,133,24,255,225,191,62,0,93,70,153,0,181,42,104,1,22,191,224,255,200,200,140,255,249,234,37,0,149,57,141,0,195,56,208,255,254,130,70,255,32,173,240,255,29,220,199,0,110,100,115,255,132,229,249,0,228,233,223,255,37,216,209,254,178,177,209,255,183,45,165,254,224,97,114,0,137,97,168,255,225,222,172,0,165,13,49,1,210,235,204,255,252,4,28,254,70,160,151,0,232,190,52,254,83,248,93,255,62,215,77,1,175,175,179,255,160,50,66,0,121,48,208,0,63,169,209,255,0,210,200,0,224,187,44,1,73,162,82,0,9,176,143,255,19,76,193,255,29,59,167,1,24,43,154,0,28,190,190,0,141,188,129,0,232,235,203,255,234,0,109,255,54,65,159,0,60,88,232,255,121,253,150,254,252,233,131,255,198,110,41,1,83,77,71,255,200,22,59,254,106,253,242,255,21,12,207,255,237,66,189,0,90,198,202,1,225,172,127,0,53,22,202,0,56,230,132,0,1,86,183,0,109,190,42,0,243,68,174,1,109,228,154,0,200,177,122,1,35,160,183,255,177,48,85,255,90,218,169,255,248,152,78,0,202,254,110,0,6,52,43,0,142,98,65,255,63,145,22,0,70,106,93,0,232,138,107,1,110,179,61,255,211,129,218,1,242,209,92,0,35,90,217,1,182,143,106,255,116,101,217,255,114,250,221,255,173,204,6,0,60,150,163,0,73,172,44,255,239,110,80,255,237,76,153,254,161,140,249,0,149,232,229,0,133,31,40,255,174,164,119,0,113,51,214,0,129,228,2,254,64,34,243,0,107,227,244,255,174,106,200,255,84,153,70,1,50,35,16,0,250,74,216,254,236,189,66,255,153,249,13,0,230,178,4,255,221,41,238,0,118,227,121,255,94,87,140,254,254,119,92,0,73,239,246,254,117,87,128,0,19,211,145,255,177,46,252,0,229,91,246,1,69,128,247,255,202,77,54,1,8,11,9,255,153,96,166,0,217,214,173,255,134,192,2,1,0,207,0,0,189,174,107,1,140,134,100,0,158,193,243,1,182,102,171,0,235,154,51,0,142,5,123,255,60,168,89,1,217,14,92,255,19,214,5,1,211,167,254,0,44,6,202,254,120,18,236,255,15,113,184,255,184,223,139,0,40,177,119,254,182,123,90,255,176,165,176,0,247,77,194,0,27,234,120,0,231,0,214,255,59,39,30,0,125,99,145,255,150,68,68,1,141,222,248,0,153,123,210,255,110,127,152,255,229,33,214,1,135,221,197,0,137,97,2,0,12,143,204,255,81,41,188,0,115,79,130,255,94,3,132,0,152,175,187,255,124,141,10,255,126,192,179,255,11,103,198,0,149,6,45,0,219,85,187,1,230,18,178,255,72,182,152,0,3,198,184,255,128,112,224,1,97,161,230,0,254,99,38,255,58,159,197,0,151,66,219,0,59,69,143,255,185,112,249,0,119,136,47,255,123,130,132,0,168,71,95,255,113,176,40,1,232,185,173,0,207,93,117,1,68,157,108,255,102,5,147,254,49,97,33,0,89,65,111,254,247,30,163,255,124,217,221,1,102,250,216,0,198,174,75,254,57,55,18,0,227,5,236,1,229,213,173,0,201,109,218,1,49,233,239,0,30,55,158,1,25,178,106,0,155,111,188,1,94,126,140,0,215,31,238,1,77,240,16,0,213,242,25,1,38,71,168,0,205,186,93,254,49,211,140,255,219,0,180,255,134,118,165,0,160,147,134,255,110,186,35,255,198,243,42,0,243,146,119,0,134,235,163,1,4,241,135,255,193,46,193,254,103,180,79,255,225,4,184,254,242,118,130,0,146,135,176,1,234,111,30,0,69,66,213,254,41,96,123,0,121,94,42,255,178,191,195,255,46,130,42,0,117,84,8,255,233,49,214,254,238,122,109,0,6,71,89,1,236,211,123,0,244,13,48,254,119,148,14,0,114,28,86,255,75,237,25,255,145,229,16,254,129,100,53,255,134,150,120,254,168,157,50,0,23,72,104,255,224,49,14,0,255,123,22,255,151,185,151,255,170,80,184,1,134,182,20,0,41,100,101,1,153,33,16,0,76,154,111,1,86,206,234,255,192,160,164,254,165,123,93,255,1,216,164,254,67,17,175,255,169,11,59,255,158,41,61,255,73,188,14,255,195,6,137,255,22,147,29,255,20,103,3,255,246,130,227,255,122,40,128,0,226,47,24,254,35,36,32,0,152,186,183,255,69,202,20,0,195,133,195,0,222,51,247,0,169,171,94,1,183,0,160,255,64,205,18,1,156,83,15,255,197,58,249,254,251,89,110,255,50,10,88,254,51,43,216,0,98,242,198,1,245,151,113,0,171,236,194,1,197,31,199,255,229,81,38,1,41,59,20,0,253,104,230,0,152,93,14,255,246,242,146,254,214,169,240,255,240,102,108,254,160,167,236,0,154,218,188,0,150,233,202,255,27,19,250,1,2,71,133,255,175,12,63,1,145,183,198,0,104,120,115,255,130,251,247,0,17,212,167,255,62,123,132,255,247,100,189,0,155,223,152,0,143,197,33,0,155,59,44,255,150,93,240,1,127,3,87,255,95,71,207,1,167,85,1,255,188,152,116,255,10,23,23,0,137,195,93,1,54,98,97,0,240,0,168,255,148,188,127,0,134,107,151,0,76,253,171,0,90,132,192,0,146,22,54,0,224,66,54,2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"i8", ALLOC_NONE, Runtime.GLOBAL_BASE+10240); +/* memory initializer */ allocate([179,176,106,254,131,93,138,255,109,62,36,255,178,121,32,255,120,252,70,0,220,248,37,0,204,88,103,1,128,220,251,255,236,227,7,1,106,49,198,255,60,56,107,0,99,114,238,0,220,204,94,1,73,187,1,0,89,154,34,0,78,217,165,255,14,195,249,255,9,230,253,255,205,135,245,0,26,252,7,255,84,205,27,1,134,2,112,0,37,158,32,0,231,91,237,255,191,170,204,255,152,7,222,0,109,192,49,0,193,166,146,255,232,19,181,255,105,142,52,255,103,16,27,1,253,200,165,0,195,217,4,255,52,189,144,255,123,155,160,254,87,130,54,255,78,120,61,255,14,56,41,0,25,41,125,255,87,168,245,0,214,165,70,0,212,169,6,255,219,211,194,254,72,93,164,255,197,33,103,255,43,142,141,0,131,225,172,0,244,105,28,0,68,68,225,0,136,84,13,255,130,57,40,254,139,77,56,0,84,150,53,0,54,95,157,0,144,13,177,254,95,115,186,0,117,23,118,255,244,166,241,255,11,186,135,0,178,106,203,255,97,218,93,0,43,253,45,0,164,152,4,0,139,118,239,0,96,1,24,254,235,153,211,255,168,110,20,255,50,239,176,0,114,41,232,0,193,250,53,0,254,160,111,254,136,122,41,255,97,108,67,0,215,152,23,255,140,209,212,0,42,189,163,0,202,42,50,255,106,106,189,255,190,68,217,255,233,58,117,0,229,220,243,1,197,3,4,0,37,120,54,254,4,156,134,255,36,61,171,254,165,136,100,255,212,232,14,0,90,174,10,0,216,198,65,255,12,3,64,0,116,113,115,255,248,103,8,0,231,125,18,255,160,28,197,0,30,184,35,1,223,73,249,255,123,20,46,254,135,56,37,255,173,13,229,1,119,161,34,255,245,61,73,0,205,125,112,0,137,104,134,0,217,246,30,255,237,142,143,0,65,159,102,255,108,164,190,0,219,117,173,255,34,37,120,254,200,69,80,0,31,124,218,254,74,27,160,255,186,154,199,255,71,199,252,0,104,81,159,1,17,200,39,0,211,61,192,1,26,238,91,0,148,217,12,0,59,91,213,255,11,81,183,255,129,230,122,255,114,203,145,1,119,180,66,255,72,138,180,0,224,149,106,0,119,82,104,255,208,140,43,0,98,9,182,255,205,101,134,255,18,101,38,0,95,197,166,255,203,241,147,0,62,208,145,255,133,246,251,0,2,169,14,0,13,247,184,0,142,7,254,0,36,200,23,255,88,205,223,0,91,129,52,255,21,186,30,0,143,228,210,1,247,234,248,255,230,69,31,254,176,186,135,255,238,205,52,1,139,79,43,0,17,176,217,254,32,243,67,0,242,111,233,0,44,35,9,255,227,114,81,1,4,71,12,255,38,105,191,0,7,117,50,255,81,79,16,0,63,68,65,255,157,36,110,255,77,241,3,255,226,45,251,1,142,25,206,0,120,123,209,1,28,254,238,255,5,128,126,255,91,222,215,255,162,15,191,0,86,240,73,0,135,185,81,254,44,241,163,0,212,219,210,255,112,162,155,0,207,101,118,0,168,72,56,255,196,5,52,0,72,172,242,255,126,22,157,255,146,96,59,255,162,121,152,254,140,16,95,0,195,254,200,254,82,150,162,0,119,43,145,254,204,172,78,255,166,224,159,0,104,19,237,255,245,126,208,255,226,59,213,0,117,217,197,0,152,72,237,0,220,31,23,254,14,90,231,255,188,212,64,1,60,101,246,255,85,24,86,0,1,177,109,0,146,83,32,1,75,182,192,0,119,241,224,0,185,237,27,255,184,101,82,1,235,37,77,255,253,134,19,0,232,246,122,0,60,106,179,0,195,11,12,0,109,66,235,1,125,113,59,0,61,40,164,0,175,104,240,0,2,47,187,255,50,12,141,0,194,139,181,255,135,250,104,0,97,92,222,255,217,149,201,255,203,241,118,255,79,151,67,0,122,142,218,255,149,245,239,0,138,42,200,254,80,37,97,255,124,112,167,255,36,138,87,255,130,29,147,255,241,87,78,255,204,97,19,1,177,209,22,255,247,227,127,254,99,119,83,255,212,25,198,1,16,179,179,0,145,77,172,254,89,153,14,255,218,189,167,0,107,233,59,255,35,33,243,254,44,112,112,255,161,127,79,1,204,175,10,0,40,21,138,254,104,116,228,0,199,95,137,255,133,190,168,255,146,165,234,1,183,99,39,0,183,220,54,254,255,222,133,0,162,219,121,254,63,239,6,0,225,102,54,255,251,18,246,0,4,34,129,1,135,36,131,0,206,50,59,1,15,97,183,0,171,216,135,255,101,152,43,255,150,251,91,0,38,145,95,0,34,204,38,254,178,140,83,255,25,129,243,255,76,144,37,0,106,36,26,254,118,144,172,255,68,186,229,255,107,161,213,255,46,163,68,255,149,170,253,0,187,17,15,0,218,160,165,255,171,35,246,1,96,13,19,0,165,203,117,0,214,107,192,255,244,123,177,1,100,3,104,0,178,242,97,255,251,76,130,255,211,77,42,1,250,79,70,255,63,244,80,1,105,101,246,0,61,136,58,1,238,91,213,0,14,59,98,255,167,84,77,0,17,132,46,254,57,175,197,255,185,62,184,0,76,64,207,0,172,175,208,254,175,74,37,0,138,27,211,254,148,125,194,0,10,89,81,0,168,203,101,255,43,213,209,1,235,245,54,0,30,35,226,255,9,126,70,0,226,125,94,254,156,117,20,255,57,248,112,1,230,48,64,255,164,92,166,1,224,214,230,255,36,120,143,0,55,8,43,255,251,1,245,1,106,98,165,0,74,107,106,254,53,4,54,255,90,178,150,1,3,120,123,255,244,5,89,1,114,250,61,255,254,153,82,1,77,15,17,0,57,238,90,1,95,223,230,0,236,52,47,254,103,148,164,255,121,207,36,1,18,16,185,255,75,20,74,0,187,11,101,0,46,48,129,255,22,239,210,255,77,236,129,255,111,77,204,255,61,72,97,255,199,217,251,255,42,215,204,0,133,145,201,255,57,230,146,1,235,100,198,0,146,73,35,254,108,198,20,255,182,79,210,255,82,103,136,0,246,108,176,0,34,17,60,255,19,74,114,254,168,170,78,255,157,239,20,255,149,41,168,0,58,121,28,0,79,179,134,255,231,121,135,255,174,209,98,255,243,122,190,0,171,166,205,0,212,116,48,0,29,108,66,255,162,222,182,1,14,119,21,0,213,39,249,255,254,223,228,255,183,165,198,0,133,190,48,0,124,208,109,25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2,96,98,0,119,102,184,1,3,190,28,0,110,82,218,255,200,204,192,255,201,145,118,0,117,204,146,0,132,32,98,1,192,194,121,0,106,161,248,1,237,88,124,0,23,212,26,0,205,171,90,255,248,48,216,1,141,37,230,255,124,203,0,254,158,168,30,255,214,248,21,0,112,187,7,255], "i8", ALLOC_NONE, Runtime.GLOBAL_BASE+20480); +/* memory initializer */ allocate([75,133,239,255,74,227,243,255,250,147,70,0,214,120,162,0,167,9,179,255,22,158,18,0,218,77,209,1,97,109,81,255,244,33,179,255,57,52,57,255,65,172,210,255,249,71,209,255,142,169,238,0,158,189,153,255,174,254,103,254,98,33,14,0,141,76,230,255,113,139,52,255,15,58,212,0,168,215,201,255,248,204,215,1,223,68,160,255,57,154,183,254,47,231,121,0,106,166,137,0,81,136,138,0,165,43,51,0,231,139,61,0,57,95,59,254,118,98,25,255,151,63,236,1,94,190,250,255,169,185,114,1,5,250,58,255,75,105,97,1,215,223,134,0,113,99,163,1,128,62,112,0,99,106,147,0,163,195,10,0,33,205,182,0,214,14,174,255,129,38,231,255,53,182,223,0,98,42,159,255,247,13,40,0,188,210,177,1,6,21,0,255,255,61,148,254,137,45,129,255,89,26,116,254,126,38,114,0,251,50,242,254,121,134,128,255,204,249,167,254,165,235,215,0,202,177,243,0,133,141,62,0,240,130,190,1,110,175,255,0,0,20,146,1,37,210,121,255,7,39,130,0,142,250,84,255,141,200,207,0,9,95,104,255,11,244,174,0,134,232,126,0,167,1,123,254,16,193,149,255,232,233,239,1,213,70,112,255,252,116,160,254,242,222,220,255,205,85,227,0,7,185,58,0,118,247,63,1,116,77,177,255,62,245,200,254,63,18,37,255,107,53,232,254,50,221,211,0,162,219,7,254,2,94,43,0,182,62,182,254,160,78,200,255,135,140,170,0,235,184,228,0,175,53,138,254,80,58,77,255,152,201,2,1,63,196,34,0,5,30,184,0,171,176,154,0,121,59,206,0,38,99,39,0,172,80,77,254,0,134,151,0,186,33,241,254,94,253,223,255,44,114,252,0,108,126,57,255,201,40,13,255,39,229,27,255,39,239,23,1,151,121,51,255,153,150,248,0,10,234,174,255,118,246,4,254,200,245,38,0,69,161,242,1,16,178,150,0,113,56,130,0,171,31,105,0,26,88,108,255,49,42,106,0,251,169,66,0,69,93,149,0,20,57,254,0,164,25,111,0,90,188,90,255,204,4,197,0,40,213,50,1,212,96,132,255,88,138,180,254,228,146,124,255,184,246,247,0,65,117,86,255,253,102,210,254,254,121,36,0,137,115,3,255,60,24,216,0,134,18,29,0,59,226,97,0,176,142,71,0,7,209,161,0,189,84,51,254,155,250,72,0,213,84,235,255,45,222,224,0,238,148,143,255,170,42,53,255,78,167,117,0,186,0,40,255,125,177,103,255,69,225,66,0,227,7,88,1,75,172,6,0,169,45,227,1,16,36,70,255,50,2,9,255,139,193,22,0,143,183,231,254,218,69,50,0,236,56,161,1,213,131,42,0,138,145,44,254,136,229,40,255,49,63,35,255,61,145,245,255,101,192,2,254,232,167,113,0,152,104,38,1,121,185,218,0,121,139,211,254,119,240,35,0,65,189,217,254,187,179,162,255,160,187,230,0,62,248,14,255,60,78,97,0,255,247,163,255,225,59,91,255,107,71,58,255,241,47,33,1,50,117,236,0,219,177,63,254,244,90,179,0,35,194,215,255,189,67,50,255,23,135,129,0,104,189,37,255,185,57,194,0,35,62,231,255,220,248,108,0,12,231,178,0,143,80,91,1,131,93,101,255,144,39,2,1,255,250,178,0,5,17,236,254,139,32,46,0,204,188,38,254,245,115,52,255,191,113,73,254,191,108,69,255,22,69,245,1,23,203,178,0,170,99,170,0,65,248,111,0,37,108,153,255,64,37,69,0,0,88,62,254,89,148,144,255,191,68,224,1,241,39,53,0,41,203,237,255,145,126,194,255,221,42,253,255,25,99,151,0,97,253,223,1,74,115,49,255,6,175,72,255,59,176,203,0,124,183,249,1,228,228,99,0,129,12,207,254,168,192,195,255,204,176,16,254,152,234,171,0,77,37,85,255,33,120,135,255,142,194,227,1,31,214,58,0,213,187,125,255,232,46,60,255,190,116,42,254,151,178,19,255,51,62,237,254,204,236,193,0,194,232,60,0,172,34,157,255,189,16,184,254,103,3,95,255,141,233,36,254,41,25,11,255,21,195,166,0,118,245,45,0,67,213,149,255,159,12,18,255,187,164,227,1,160,25,5,0,12,78,195,1,43,197,225,0,48,142,41,254,196,155,60,255,223,199,18,1,145,136,156,0,252,117,169,254,145,226,238,0,239,23,107,0,109,181,188,255,230,112,49,254,73,170,237,255,231,183,227,255,80,220,20,0,194,107,127,1,127,205,101,0,46,52,197,1,210,171,36,255,88,3,90,255,56,151,141,0,96,187,255,255,42,78,200,0,254,70,70,1,244,125,168,0,204,68,138,1,124,215,70,0,102,66,200,254,17,52,228,0,117,220,143,254,203,248,123,0,56,18,174,255,186,151,164,255,51,232,208,1,160,228,43,255,249,29,25,1,68,190,63,0,8,201,188,243,103,230,9,106,59,167,202,132,133,174,103,187,43,248,148,254,114,243,110,60,241,54,29,95,58,245,79,165,209,130,230,173,127,82,14,81,31,108,62,43,140,104,5,155,107,189,65,251,171,217,131,31,121,33,126,19,25,205,224,91,34,174,40,215,152,47,138,66,205,101,239,35,145,68,55,113,47,59,77,236,207,251,192,181,188,219,137,129,165,219,181,233,56,181,72,243,91,194,86,57,25,208,5,182,241,17,241,89,155,79,25,175,164,130,63,146,24,129,109,218,213,94,28,171,66,2,3,163,152,170,7,216,190,111,112,69,1,91,131,18,140,178,228,78,190,133,49,36,226,180,255,213,195,125,12,85,111,137,123,242,116,93,190,114,177,150,22,59,254,177,222,128,53,18,199,37,167,6,220,155,148,38,105,207,116,241,155,193,210,74,241,158,193,105,155,228,227,37,79,56,134,71,190,239,181,213,140,139,198,157,193,15,101,156,172,119,204,161,12,36,117,2,43,89,111,44,233,45,131,228,166,110,170,132,116,74,212,251,65,189,220,169,176,92,181,83,17,131,218,136,249,118,171,223,102,238,82,81,62,152,16,50,180,45,109,198,49,168,63,33,251,152,200,39,3,176,228,14,239,190,199,127,89,191,194,143,168,61,243,11,224,198,37,167,10,147,71,145,167,213,111,130,3,224,81,99,202,6,112,110,14,10,103,41,41,20,252,47,210,70,133,10,183,39,38,201,38,92,56,33,27,46,237,42,196,90,252,109,44,77,223,179,149,157,19,13,56,83,222,99,175,139,84,115,10,101,168,178,119,60,187,10,106,118,230,174,237,71,46,201,194,129,59,53,130,20,133,44,114,146,100,3,241,76,161,232,191,162,1,48,66,188,75,102,26,168,145,151,248,208,112,139,75,194,48,190,84,6,163,81,108,199,24,82,239,214,25,232,146,209,16,169,101,85,36,6,153,214,42,32,113,87,133,53,14,244,184,209,187,50,112,160,106,16,200,208,210,184,22,193,164,25,83,171,65,81,8,108,55,30,153,235,142,223,76,119,72,39,168,72,155,225,181,188,176,52,99,90,201,197,179,12,28,57,203,138,65,227,74,170,216,78,115,227,99,119,79,202,156,91,163,184,178,214,243,111,46,104,252,178,239,93,238,130,143,116,96,47,23,67,111,99,165,120,114,171,240,161,20,120,200,132,236,57,100,26,8,2,199,140,40,30,99,35,250,255,190,144,233,189,130,222,235,108,80,164,21,121,198,178,247,163,249,190,43,83,114,227,242,120,113,198,156,97,38,234,206,62,39,202,7,194,192,33,199,184,134,209,30,235,224,205,214,125,218,234,120,209,110,238,127,79,125,245,186,111,23,114,170,103,240,6,166,152,200,162,197,125,99,10,174,13,249,190,4,152,63,17,27,71,28,19,53,11,113,27,132,125,4,35,245,119,219,40,147,36,199,64,123,171,202,50,188,190,201,21,10,190,158,60,76,13,16,156,196,103,29,67,182,66,62,203,190,212,197,76,42,126,101,252,156,41,127,89,236,250,214,58,171,111,203,95,23,88,71,74,140,25,68,108,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0], "i8", ALLOC_NONE, Runtime.GLOBAL_BASE+30720); + + + + +var tempDoublePtr = Runtime.alignMemory(allocate(12, "i8", ALLOC_STATIC), 8); + +assert(tempDoublePtr % 8 == 0); + +function copyTempFloat(ptr) { // functions, because inlining this code increases code size too much + + HEAP8[tempDoublePtr] = HEAP8[ptr]; + + HEAP8[tempDoublePtr+1] = HEAP8[ptr+1]; + + HEAP8[tempDoublePtr+2] = HEAP8[ptr+2]; + + HEAP8[tempDoublePtr+3] = HEAP8[ptr+3]; + +} + +function copyTempDouble(ptr) { + + HEAP8[tempDoublePtr] = HEAP8[ptr]; + + HEAP8[tempDoublePtr+1] = HEAP8[ptr+1]; + + HEAP8[tempDoublePtr+2] = HEAP8[ptr+2]; + + HEAP8[tempDoublePtr+3] = HEAP8[ptr+3]; + + HEAP8[tempDoublePtr+4] = HEAP8[ptr+4]; + + HEAP8[tempDoublePtr+5] = HEAP8[ptr+5]; + + HEAP8[tempDoublePtr+6] = HEAP8[ptr+6]; + + HEAP8[tempDoublePtr+7] = HEAP8[ptr+7]; + +} + + + + Module["_bitshift64Ashr"] = _bitshift64Ashr; + + + Module["_i64Subtract"] = _i64Subtract; + + + Module["_i64Add"] = _i64Add; + + + Module["_memset"] = _memset; + + + Module["_bitshift64Lshr"] = _bitshift64Lshr; + + + Module["_bitshift64Shl"] = _bitshift64Shl; + + function _abort() { + Module['abort'](); + } + + + Module["_strlen"] = _strlen; + + + function _emscripten_memcpy_big(dest, src, num) { + HEAPU8.set(HEAPU8.subarray(src, src+num), dest); + return dest; + } + Module["_memcpy"] = _memcpy; + + + + var ___errno_state=0;function ___setErrNo(value) { + // For convenient setting and returning of errno. + HEAP32[((___errno_state)>>2)]=value; + return value; + } + + var ERRNO_CODES={EPERM:1,ENOENT:2,ESRCH:3,EINTR:4,EIO:5,ENXIO:6,E2BIG:7,ENOEXEC:8,EBADF:9,ECHILD:10,EAGAIN:11,EWOULDBLOCK:11,ENOMEM:12,EACCES:13,EFAULT:14,ENOTBLK:15,EBUSY:16,EEXIST:17,EXDEV:18,ENODEV:19,ENOTDIR:20,EISDIR:21,EINVAL:22,ENFILE:23,EMFILE:24,ENOTTY:25,ETXTBSY:26,EFBIG:27,ENOSPC:28,ESPIPE:29,EROFS:30,EMLINK:31,EPIPE:32,EDOM:33,ERANGE:34,ENOMSG:42,EIDRM:43,ECHRNG:44,EL2NSYNC:45,EL3HLT:46,EL3RST:47,ELNRNG:48,EUNATCH:49,ENOCSI:50,EL2HLT:51,EDEADLK:35,ENOLCK:37,EBADE:52,EBADR:53,EXFULL:54,ENOANO:55,EBADRQC:56,EBADSLT:57,EDEADLOCK:35,EBFONT:59,ENOSTR:60,ENODATA:61,ETIME:62,ENOSR:63,ENONET:64,ENOPKG:65,EREMOTE:66,ENOLINK:67,EADV:68,ESRMNT:69,ECOMM:70,EPROTO:71,EMULTIHOP:72,EDOTDOT:73,EBADMSG:74,ENOTUNIQ:76,EBADFD:77,EREMCHG:78,ELIBACC:79,ELIBBAD:80,ELIBSCN:81,ELIBMAX:82,ELIBEXEC:83,ENOSYS:38,ENOTEMPTY:39,ENAMETOOLONG:36,ELOOP:40,EOPNOTSUPP:95,EPFNOSUPPORT:96,ECONNRESET:104,ENOBUFS:105,EAFNOSUPPORT:97,EPROTOTYPE:91,ENOTSOCK:88,ENOPROTOOPT:92,ESHUTDOWN:108,ECONNREFUSED:111,EADDRINUSE:98,ECONNABORTED:103,ENETUNREACH:101,ENETDOWN:100,ETIMEDOUT:110,EHOSTDOWN:112,EHOSTUNREACH:113,EINPROGRESS:115,EALREADY:114,EDESTADDRREQ:89,EMSGSIZE:90,EPROTONOSUPPORT:93,ESOCKTNOSUPPORT:94,EADDRNOTAVAIL:99,ENETRESET:102,EISCONN:106,ENOTCONN:107,ETOOMANYREFS:109,EUSERS:87,EDQUOT:122,ESTALE:116,ENOTSUP:95,ENOMEDIUM:123,EILSEQ:84,EOVERFLOW:75,ECANCELED:125,ENOTRECOVERABLE:131,EOWNERDEAD:130,ESTRPIPE:86};function _sysconf(name) { + // long sysconf(int name); + // http://pubs.opengroup.org/onlinepubs/009695399/functions/sysconf.html + switch(name) { + case 30: return PAGE_SIZE; + case 132: + case 133: + case 12: + case 137: + case 138: + case 15: + case 235: + case 16: + case 17: + case 18: + case 19: + case 20: + case 149: + case 13: + case 10: + case 236: + case 153: + case 9: + case 21: + case 22: + case 159: + case 154: + case 14: + case 77: + case 78: + case 139: + case 80: + case 81: + case 79: + case 82: + case 68: + case 67: + case 164: + case 11: + case 29: + case 47: + case 48: + case 95: + case 52: + case 51: + case 46: + return 200809; + case 27: + case 246: + case 127: + case 128: + case 23: + case 24: + case 160: + case 161: + case 181: + case 182: + case 242: + case 183: + case 184: + case 243: + case 244: + case 245: + case 165: + case 178: + case 179: + case 49: + case 50: + case 168: + case 169: + case 175: + case 170: + case 171: + case 172: + case 97: + case 76: + case 32: + case 173: + case 35: + return -1; + case 176: + case 177: + case 7: + case 155: + case 8: + case 157: + case 125: + case 126: + case 92: + case 93: + case 129: + case 130: + case 131: + case 94: + case 91: + return 1; + case 74: + case 60: + case 69: + case 70: + case 4: + return 1024; + case 31: + case 42: + case 72: + return 32; + case 87: + case 26: + case 33: + return 2147483647; + case 34: + case 1: + return 47839; + case 38: + case 36: + return 99; + case 43: + case 37: + return 2048; + case 0: return 2097152; + case 3: return 65536; + case 28: return 32768; + case 44: return 32767; + case 75: return 16384; + case 39: return 1000; + case 89: return 700; + case 71: return 256; + case 40: return 255; + case 2: return 100; + case 180: return 64; + case 25: return 20; + case 5: return 16; + case 6: return 6; + case 73: return 4; + case 84: { + if (typeof navigator === 'object') return navigator['hardwareConcurrency'] || 1; + return 1; + } + } + ___setErrNo(ERRNO_CODES.EINVAL); + return -1; + } + + function _sbrk(bytes) { + // Implement a Linux-like 'memory area' for our 'process'. + // Changes the size of the memory area by |bytes|; returns the + // address of the previous top ('break') of the memory area + // We control the "dynamic" memory - DYNAMIC_BASE to DYNAMICTOP + var self = _sbrk; + if (!self.called) { + DYNAMICTOP = alignMemoryPage(DYNAMICTOP); // make sure we start out aligned + self.called = true; + assert(Runtime.dynamicAlloc); + self.alloc = Runtime.dynamicAlloc; + Runtime.dynamicAlloc = function() { abort('cannot dynamically allocate, sbrk now has control') }; + } + var ret = DYNAMICTOP; + if (bytes != 0) self.alloc(bytes); + return ret; // Previous break location. + } + + + Module["_memmove"] = _memmove; + + function ___errno_location() { + return ___errno_state; + } + + + + + var ERRNO_MESSAGES={0:"Success",1:"Not super-user",2:"No such file or directory",3:"No such process",4:"Interrupted system call",5:"I/O error",6:"No such device or address",7:"Arg list too long",8:"Exec format error",9:"Bad file number",10:"No children",11:"No more processes",12:"Not enough core",13:"Permission denied",14:"Bad address",15:"Block device required",16:"Mount device busy",17:"File exists",18:"Cross-device link",19:"No such device",20:"Not a directory",21:"Is a directory",22:"Invalid argument",23:"Too many open files in system",24:"Too many open files",25:"Not a typewriter",26:"Text file busy",27:"File too large",28:"No space left on device",29:"Illegal seek",30:"Read only file system",31:"Too many links",32:"Broken pipe",33:"Math arg out of domain of func",34:"Math result not representable",35:"File locking deadlock error",36:"File or path name too long",37:"No record locks available",38:"Function not implemented",39:"Directory not empty",40:"Too many symbolic links",42:"No message of desired type",43:"Identifier removed",44:"Channel number out of range",45:"Level 2 not synchronized",46:"Level 3 halted",47:"Level 3 reset",48:"Link number out of range",49:"Protocol driver not attached",50:"No CSI structure available",51:"Level 2 halted",52:"Invalid exchange",53:"Invalid request descriptor",54:"Exchange full",55:"No anode",56:"Invalid request code",57:"Invalid slot",59:"Bad font file fmt",60:"Device not a stream",61:"No data (for no delay io)",62:"Timer expired",63:"Out of streams resources",64:"Machine is not on the network",65:"Package not installed",66:"The object is remote",67:"The link has been severed",68:"Advertise error",69:"Srmount error",70:"Communication error on send",71:"Protocol error",72:"Multihop attempted",73:"Cross mount point (not really error)",74:"Trying to read unreadable message",75:"Value too large for defined data type",76:"Given log. name not unique",77:"f.d. invalid for this operation",78:"Remote address changed",79:"Can access a needed shared lib",80:"Accessing a corrupted shared lib",81:".lib section in a.out corrupted",82:"Attempting to link in too many libs",83:"Attempting to exec a shared library",84:"Illegal byte sequence",86:"Streams pipe error",87:"Too many users",88:"Socket operation on non-socket",89:"Destination address required",90:"Message too long",91:"Protocol wrong type for socket",92:"Protocol not available",93:"Unknown protocol",94:"Socket type not supported",95:"Not supported",96:"Protocol family not supported",97:"Address family not supported by protocol family",98:"Address already in use",99:"Address not available",100:"Network interface is not configured",101:"Network is unreachable",102:"Connection reset by network",103:"Connection aborted",104:"Connection reset by peer",105:"No buffer space available",106:"Socket is already connected",107:"Socket is not connected",108:"Can't send after socket shutdown",109:"Too many references",110:"Connection timed out",111:"Connection refused",112:"Host is down",113:"Host is unreachable",114:"Socket already connected",115:"Connection already in progress",116:"Stale file handle",122:"Quota exceeded",123:"No medium (in tape drive)",125:"Operation canceled",130:"Previous owner died",131:"State not recoverable"}; + + var TTY={ttys:[],init:function () { + // https://github.com/kripken/emscripten/pull/1555 + // if (ENVIRONMENT_IS_NODE) { + // // currently, FS.init does not distinguish if process.stdin is a file or TTY + // // device, it always assumes it's a TTY device. because of this, we're forcing + // // process.stdin to UTF8 encoding to at least make stdin reading compatible + // // with text files until FS.init can be refactored. + // process['stdin']['setEncoding']('utf8'); + // } + },shutdown:function () { + // https://github.com/kripken/emscripten/pull/1555 + // if (ENVIRONMENT_IS_NODE) { + // // inolen: any idea as to why node -e 'process.stdin.read()' wouldn't exit immediately (with process.stdin being a tty)? + // // isaacs: because now it's reading from the stream, you've expressed interest in it, so that read() kicks off a _read() which creates a ReadReq operation + // // inolen: I thought read() in that case was a synchronous operation that just grabbed some amount of buffered data if it exists? + // // isaacs: it is. but it also triggers a _read() call, which calls readStart() on the handle + // // isaacs: do process.stdin.pause() and i'd think it'd probably close the pending call + // process['stdin']['pause'](); + // } + },register:function (dev, ops) { + TTY.ttys[dev] = { input: [], output: [], ops: ops }; + FS.registerDevice(dev, TTY.stream_ops); + },stream_ops:{open:function (stream) { + var tty = TTY.ttys[stream.node.rdev]; + if (!tty) { + throw new FS.ErrnoError(ERRNO_CODES.ENODEV); + } + stream.tty = tty; + stream.seekable = false; + },close:function (stream) { + // flush any pending line data + stream.tty.ops.flush(stream.tty); + },flush:function (stream) { + stream.tty.ops.flush(stream.tty); + },read:function (stream, buffer, offset, length, pos /* ignored */) { + if (!stream.tty || !stream.tty.ops.get_char) { + throw new FS.ErrnoError(ERRNO_CODES.ENXIO); + } + var bytesRead = 0; + for (var i = 0; i < length; i++) { + var result; + try { + result = stream.tty.ops.get_char(stream.tty); + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES.EIO); + } + if (result === undefined && bytesRead === 0) { + throw new FS.ErrnoError(ERRNO_CODES.EAGAIN); + } + if (result === null || result === undefined) break; + bytesRead++; + buffer[offset+i] = result; + } + if (bytesRead) { + stream.node.timestamp = Date.now(); + } + return bytesRead; + },write:function (stream, buffer, offset, length, pos) { + if (!stream.tty || !stream.tty.ops.put_char) { + throw new FS.ErrnoError(ERRNO_CODES.ENXIO); + } + for (var i = 0; i < length; i++) { + try { + stream.tty.ops.put_char(stream.tty, buffer[offset+i]); + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES.EIO); + } + } + if (length) { + stream.node.timestamp = Date.now(); + } + return i; + }},default_tty_ops:{get_char:function (tty) { + if (!tty.input.length) { + var result = null; + if (ENVIRONMENT_IS_NODE) { + result = process['stdin']['read'](); + if (!result) { + if (process['stdin']['_readableState'] && process['stdin']['_readableState']['ended']) { + return null; // EOF + } + return undefined; // no data available + } + } else if (typeof window != 'undefined' && + typeof window.prompt == 'function') { + // Browser. + result = window.prompt('Input: '); // returns null on cancel + if (result !== null) { + result += '\n'; + } + } else if (typeof readline == 'function') { + // Command line. + result = readline(); + if (result !== null) { + result += '\n'; + } + } + if (!result) { + return null; + } + tty.input = intArrayFromString(result, true); + } + return tty.input.shift(); + },flush:function (tty) { + if (tty.output && tty.output.length > 0) { + Module['print'](tty.output.join('')); + tty.output = []; + } + },put_char:function (tty, val) { + if (val === null || val === 10) { + Module['print'](tty.output.join('')); + tty.output = []; + } else { + tty.output.push(TTY.utf8.processCChar(val)); + } + }},default_tty1_ops:{put_char:function (tty, val) { + if (val === null || val === 10) { + Module['printErr'](tty.output.join('')); + tty.output = []; + } else { + tty.output.push(TTY.utf8.processCChar(val)); + } + },flush:function (tty) { + if (tty.output && tty.output.length > 0) { + Module['printErr'](tty.output.join('')); + tty.output = []; + } + }}}; + + var MEMFS={ops_table:null,mount:function (mount) { + return MEMFS.createNode(null, '/', 16384 | 511 /* 0777 */, 0); + },createNode:function (parent, name, mode, dev) { + if (FS.isBlkdev(mode) || FS.isFIFO(mode)) { + // no supported + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + if (!MEMFS.ops_table) { + MEMFS.ops_table = { + dir: { + node: { + getattr: MEMFS.node_ops.getattr, + setattr: MEMFS.node_ops.setattr, + lookup: MEMFS.node_ops.lookup, + mknod: MEMFS.node_ops.mknod, + rename: MEMFS.node_ops.rename, + unlink: MEMFS.node_ops.unlink, + rmdir: MEMFS.node_ops.rmdir, + readdir: MEMFS.node_ops.readdir, + symlink: MEMFS.node_ops.symlink + }, + stream: { + llseek: MEMFS.stream_ops.llseek + } + }, + file: { + node: { + getattr: MEMFS.node_ops.getattr, + setattr: MEMFS.node_ops.setattr + }, + stream: { + llseek: MEMFS.stream_ops.llseek, + read: MEMFS.stream_ops.read, + write: MEMFS.stream_ops.write, + allocate: MEMFS.stream_ops.allocate, + mmap: MEMFS.stream_ops.mmap + } + }, + link: { + node: { + getattr: MEMFS.node_ops.getattr, + setattr: MEMFS.node_ops.setattr, + readlink: MEMFS.node_ops.readlink + }, + stream: {} + }, + chrdev: { + node: { + getattr: MEMFS.node_ops.getattr, + setattr: MEMFS.node_ops.setattr + }, + stream: FS.chrdev_stream_ops + } + }; + } + var node = FS.createNode(parent, name, mode, dev); + if (FS.isDir(node.mode)) { + node.node_ops = MEMFS.ops_table.dir.node; + node.stream_ops = MEMFS.ops_table.dir.stream; + node.contents = {}; + } else if (FS.isFile(node.mode)) { + node.node_ops = MEMFS.ops_table.file.node; + node.stream_ops = MEMFS.ops_table.file.stream; + node.usedBytes = 0; // The actual number of bytes used in the typed array, as opposed to contents.buffer.byteLength which gives the whole capacity. + // When the byte data of the file is populated, this will point to either a typed array, or a normal JS array. Typed arrays are preferred + // for performance, and used by default. However, typed arrays are not resizable like normal JS arrays are, so there is a small disk size + // penalty involved for appending file writes that continuously grow a file similar to std::vector capacity vs used -scheme. + node.contents = null; + } else if (FS.isLink(node.mode)) { + node.node_ops = MEMFS.ops_table.link.node; + node.stream_ops = MEMFS.ops_table.link.stream; + } else if (FS.isChrdev(node.mode)) { + node.node_ops = MEMFS.ops_table.chrdev.node; + node.stream_ops = MEMFS.ops_table.chrdev.stream; + } + node.timestamp = Date.now(); + // add the new node to the parent + if (parent) { + parent.contents[name] = node; + } + return node; + },getFileDataAsRegularArray:function (node) { + if (node.contents && node.contents.subarray) { + var arr = []; + for (var i = 0; i < node.usedBytes; ++i) arr.push(node.contents[i]); + return arr; // Returns a copy of the original data. + } + return node.contents; // No-op, the file contents are already in a JS array. Return as-is. + },getFileDataAsTypedArray:function (node) { + if (!node.contents) return new Uint8Array; + if (node.contents.subarray) return node.contents.subarray(0, node.usedBytes); // Make sure to not return excess unused bytes. + return new Uint8Array(node.contents); + },expandFileStorage:function (node, newCapacity) { + + // If we are asked to expand the size of a file that already exists, revert to using a standard JS array to store the file + // instead of a typed array. This makes resizing the array more flexible because we can just .push() elements at the back to + // increase the size. + if (node.contents && node.contents.subarray && newCapacity > node.contents.length) { + node.contents = MEMFS.getFileDataAsRegularArray(node); + node.usedBytes = node.contents.length; // We might be writing to a lazy-loaded file which had overridden this property, so force-reset it. + } + + if (!node.contents || node.contents.subarray) { // Keep using a typed array if creating a new storage, or if old one was a typed array as well. + var prevCapacity = node.contents ? node.contents.buffer.byteLength : 0; + if (prevCapacity >= newCapacity) return; // No need to expand, the storage was already large enough. + // Don't expand strictly to the given requested limit if it's only a very small increase, but instead geometrically grow capacity. + // For small filesizes (<1MB), perform size*2 geometric increase, but for large sizes, do a much more conservative size*1.125 increase to + // avoid overshooting the allocation cap by a very large margin. + var CAPACITY_DOUBLING_MAX = 1024 * 1024; + newCapacity = Math.max(newCapacity, (prevCapacity * (prevCapacity < CAPACITY_DOUBLING_MAX ? 2.0 : 1.125)) | 0); + if (prevCapacity != 0) newCapacity = Math.max(newCapacity, 256); // At minimum allocate 256b for each file when expanding. + var oldContents = node.contents; + node.contents = new Uint8Array(newCapacity); // Allocate new storage. + if (node.usedBytes > 0) node.contents.set(oldContents.subarray(0, node.usedBytes), 0); // Copy old data over to the new storage. + return; + } + // Not using a typed array to back the file storage. Use a standard JS array instead. + if (!node.contents && newCapacity > 0) node.contents = []; + while (node.contents.length < newCapacity) node.contents.push(0); + },resizeFileStorage:function (node, newSize) { + if (node.usedBytes == newSize) return; + if (newSize == 0) { + node.contents = null; // Fully decommit when requesting a resize to zero. + node.usedBytes = 0; + return; + } + + if (!node.contents || node.contents.subarray) { // Resize a typed array if that is being used as the backing store. + var oldContents = node.contents; + node.contents = new Uint8Array(new ArrayBuffer(newSize)); // Allocate new storage. + if (oldContents) { + node.contents.set(oldContents.subarray(0, Math.min(newSize, node.usedBytes))); // Copy old data over to the new storage. + } + node.usedBytes = newSize; + return; + } + // Backing with a JS array. + if (!node.contents) node.contents = []; + if (node.contents.length > newSize) node.contents.length = newSize; + else while (node.contents.length < newSize) node.contents.push(0); + node.usedBytes = newSize; + },node_ops:{getattr:function (node) { + var attr = {}; + // device numbers reuse inode numbers. + attr.dev = FS.isChrdev(node.mode) ? node.id : 1; + attr.ino = node.id; + attr.mode = node.mode; + attr.nlink = 1; + attr.uid = 0; + attr.gid = 0; + attr.rdev = node.rdev; + if (FS.isDir(node.mode)) { + attr.size = 4096; + } else if (FS.isFile(node.mode)) { + attr.size = node.usedBytes; + } else if (FS.isLink(node.mode)) { + attr.size = node.link.length; + } else { + attr.size = 0; + } + attr.atime = new Date(node.timestamp); + attr.mtime = new Date(node.timestamp); + attr.ctime = new Date(node.timestamp); + // NOTE: In our implementation, st_blocks = Math.ceil(st_size/st_blksize), + // but this is not required by the standard. + attr.blksize = 4096; + attr.blocks = Math.ceil(attr.size / attr.blksize); + return attr; + },setattr:function (node, attr) { + if (attr.mode !== undefined) { + node.mode = attr.mode; + } + if (attr.timestamp !== undefined) { + node.timestamp = attr.timestamp; + } + if (attr.size !== undefined) { + MEMFS.resizeFileStorage(node, attr.size); + } + },lookup:function (parent, name) { + throw FS.genericErrors[ERRNO_CODES.ENOENT]; + },mknod:function (parent, name, mode, dev) { + return MEMFS.createNode(parent, name, mode, dev); + },rename:function (old_node, new_dir, new_name) { + // if we're overwriting a directory at new_name, make sure it's empty. + if (FS.isDir(old_node.mode)) { + var new_node; + try { + new_node = FS.lookupNode(new_dir, new_name); + } catch (e) { + } + if (new_node) { + for (var i in new_node.contents) { + throw new FS.ErrnoError(ERRNO_CODES.ENOTEMPTY); + } + } + } + // do the internal rewiring + delete old_node.parent.contents[old_node.name]; + old_node.name = new_name; + new_dir.contents[new_name] = old_node; + old_node.parent = new_dir; + },unlink:function (parent, name) { + delete parent.contents[name]; + },rmdir:function (parent, name) { + var node = FS.lookupNode(parent, name); + for (var i in node.contents) { + throw new FS.ErrnoError(ERRNO_CODES.ENOTEMPTY); + } + delete parent.contents[name]; + },readdir:function (node) { + var entries = ['.', '..'] + for (var key in node.contents) { + if (!node.contents.hasOwnProperty(key)) { + continue; + } + entries.push(key); + } + return entries; + },symlink:function (parent, newname, oldpath) { + var node = MEMFS.createNode(parent, newname, 511 /* 0777 */ | 40960, 0); + node.link = oldpath; + return node; + },readlink:function (node) { + if (!FS.isLink(node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + return node.link; + }},stream_ops:{read:function (stream, buffer, offset, length, position) { + var contents = stream.node.contents; + if (position >= stream.node.usedBytes) return 0; + var size = Math.min(stream.node.usedBytes - position, length); + assert(size >= 0); + if (size > 8 && contents.subarray) { // non-trivial, and typed array + buffer.set(contents.subarray(position, position + size), offset); + } else + { + for (var i = 0; i < size; i++) buffer[offset + i] = contents[position + i]; + } + return size; + },write:function (stream, buffer, offset, length, position, canOwn) { + if (!length) return 0; + var node = stream.node; + node.timestamp = Date.now(); + + if (buffer.subarray && (!node.contents || node.contents.subarray)) { // This write is from a typed array to a typed array? + if (canOwn) { // Can we just reuse the buffer we are given? + node.contents = buffer.subarray(offset, offset + length); + node.usedBytes = length; + return length; + } else if (node.usedBytes === 0 && position === 0) { // If this is a simple first write to an empty file, do a fast set since we don't need to care about old data. + node.contents = new Uint8Array(buffer.subarray(offset, offset + length)); + node.usedBytes = length; + return length; + } else if (position + length <= node.usedBytes) { // Writing to an already allocated and used subrange of the file? + node.contents.set(buffer.subarray(offset, offset + length), position); + return length; + } + } + // Appending to an existing file and we need to reallocate, or source data did not come as a typed array. + MEMFS.expandFileStorage(node, position+length); + if (node.contents.subarray && buffer.subarray) node.contents.set(buffer.subarray(offset, offset + length), position); // Use typed array write if available. + else + for (var i = 0; i < length; i++) { + node.contents[position + i] = buffer[offset + i]; // Or fall back to manual write if not. + } + node.usedBytes = Math.max(node.usedBytes, position+length); + return length; + },llseek:function (stream, offset, whence) { + var position = offset; + if (whence === 1) { // SEEK_CUR. + position += stream.position; + } else if (whence === 2) { // SEEK_END. + if (FS.isFile(stream.node.mode)) { + position += stream.node.usedBytes; + } + } + if (position < 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + return position; + },allocate:function (stream, offset, length) { + MEMFS.expandFileStorage(stream.node, offset + length); + stream.node.usedBytes = Math.max(stream.node.usedBytes, offset + length); + },mmap:function (stream, buffer, offset, length, position, prot, flags) { + if (!FS.isFile(stream.node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.ENODEV); + } + var ptr; + var allocated; + var contents = stream.node.contents; + // Only make a new copy when MAP_PRIVATE is specified. + if ( !(flags & 2) && + (contents.buffer === buffer || contents.buffer === buffer.buffer) ) { + // We can't emulate MAP_SHARED when the file is not backed by the buffer + // we're mapping to (e.g. the HEAP buffer). + allocated = false; + ptr = contents.byteOffset; + } else { + // Try to avoid unnecessary slices. + if (position > 0 || position + length < stream.node.usedBytes) { + if (contents.subarray) { + contents = contents.subarray(position, position + length); + } else { + contents = Array.prototype.slice.call(contents, position, position + length); + } + } + allocated = true; + ptr = _malloc(length); + if (!ptr) { + throw new FS.ErrnoError(ERRNO_CODES.ENOMEM); + } + buffer.set(contents, ptr); + } + return { ptr: ptr, allocated: allocated }; + }}}; + + var IDBFS={dbs:{},indexedDB:function () { + if (typeof indexedDB !== 'undefined') return indexedDB; + var ret = null; + if (typeof window === 'object') ret = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB; + assert(ret, 'IDBFS used, but indexedDB not supported'); + return ret; + },DB_VERSION:21,DB_STORE_NAME:"FILE_DATA",mount:function (mount) { + // reuse all of the core MEMFS functionality + return MEMFS.mount.apply(null, arguments); + },syncfs:function (mount, populate, callback) { + IDBFS.getLocalSet(mount, function(err, local) { + if (err) return callback(err); + + IDBFS.getRemoteSet(mount, function(err, remote) { + if (err) return callback(err); + + var src = populate ? remote : local; + var dst = populate ? local : remote; + + IDBFS.reconcile(src, dst, callback); + }); + }); + },getDB:function (name, callback) { + // check the cache first + var db = IDBFS.dbs[name]; + if (db) { + return callback(null, db); + } + + var req; + try { + req = IDBFS.indexedDB().open(name, IDBFS.DB_VERSION); + } catch (e) { + return callback(e); + } + req.onupgradeneeded = function(e) { + var db = e.target.result; + var transaction = e.target.transaction; + + var fileStore; + + if (db.objectStoreNames.contains(IDBFS.DB_STORE_NAME)) { + fileStore = transaction.objectStore(IDBFS.DB_STORE_NAME); + } else { + fileStore = db.createObjectStore(IDBFS.DB_STORE_NAME); + } + + fileStore.createIndex('timestamp', 'timestamp', { unique: false }); + }; + req.onsuccess = function() { + db = req.result; + + // add to the cache + IDBFS.dbs[name] = db; + callback(null, db); + }; + req.onerror = function() { + callback(this.error); + }; + },getLocalSet:function (mount, callback) { + var entries = {}; + + function isRealDir(p) { + return p !== '.' && p !== '..'; + }; + function toAbsolute(root) { + return function(p) { + return PATH.join2(root, p); + } + }; + + var check = FS.readdir(mount.mountpoint).filter(isRealDir).map(toAbsolute(mount.mountpoint)); + + while (check.length) { + var path = check.pop(); + var stat; + + try { + stat = FS.stat(path); + } catch (e) { + return callback(e); + } + + if (FS.isDir(stat.mode)) { + check.push.apply(check, FS.readdir(path).filter(isRealDir).map(toAbsolute(path))); + } + + entries[path] = { timestamp: stat.mtime }; + } + + return callback(null, { type: 'local', entries: entries }); + },getRemoteSet:function (mount, callback) { + var entries = {}; + + IDBFS.getDB(mount.mountpoint, function(err, db) { + if (err) return callback(err); + + var transaction = db.transaction([IDBFS.DB_STORE_NAME], 'readonly'); + transaction.onerror = function() { callback(this.error); }; + + var store = transaction.objectStore(IDBFS.DB_STORE_NAME); + var index = store.index('timestamp'); + + index.openKeyCursor().onsuccess = function(event) { + var cursor = event.target.result; + + if (!cursor) { + return callback(null, { type: 'remote', db: db, entries: entries }); + } + + entries[cursor.primaryKey] = { timestamp: cursor.key }; + + cursor.continue(); + }; + }); + },loadLocalEntry:function (path, callback) { + var stat, node; + + try { + var lookup = FS.lookupPath(path); + node = lookup.node; + stat = FS.stat(path); + } catch (e) { + return callback(e); + } + + if (FS.isDir(stat.mode)) { + return callback(null, { timestamp: stat.mtime, mode: stat.mode }); + } else if (FS.isFile(stat.mode)) { + // Performance consideration: storing a normal JavaScript array to a IndexedDB is much slower than storing a typed array. + // Therefore always convert the file contents to a typed array first before writing the data to IndexedDB. + node.contents = MEMFS.getFileDataAsTypedArray(node); + return callback(null, { timestamp: stat.mtime, mode: stat.mode, contents: node.contents }); + } else { + return callback(new Error('node type not supported')); + } + },storeLocalEntry:function (path, entry, callback) { + try { + if (FS.isDir(entry.mode)) { + FS.mkdir(path, entry.mode); + } else if (FS.isFile(entry.mode)) { + FS.writeFile(path, entry.contents, { encoding: 'binary', canOwn: true }); + } else { + return callback(new Error('node type not supported')); + } + + FS.chmod(path, entry.mode); + FS.utime(path, entry.timestamp, entry.timestamp); + } catch (e) { + return callback(e); + } + + callback(null); + },removeLocalEntry:function (path, callback) { + try { + var lookup = FS.lookupPath(path); + var stat = FS.stat(path); + + if (FS.isDir(stat.mode)) { + FS.rmdir(path); + } else if (FS.isFile(stat.mode)) { + FS.unlink(path); + } + } catch (e) { + return callback(e); + } + + callback(null); + },loadRemoteEntry:function (store, path, callback) { + var req = store.get(path); + req.onsuccess = function(event) { callback(null, event.target.result); }; + req.onerror = function() { callback(this.error); }; + },storeRemoteEntry:function (store, path, entry, callback) { + var req = store.put(entry, path); + req.onsuccess = function() { callback(null); }; + req.onerror = function() { callback(this.error); }; + },removeRemoteEntry:function (store, path, callback) { + var req = store.delete(path); + req.onsuccess = function() { callback(null); }; + req.onerror = function() { callback(this.error); }; + },reconcile:function (src, dst, callback) { + var total = 0; + + var create = []; + Object.keys(src.entries).forEach(function (key) { + var e = src.entries[key]; + var e2 = dst.entries[key]; + if (!e2 || e.timestamp > e2.timestamp) { + create.push(key); + total++; + } + }); + + var remove = []; + Object.keys(dst.entries).forEach(function (key) { + var e = dst.entries[key]; + var e2 = src.entries[key]; + if (!e2) { + remove.push(key); + total++; + } + }); + + if (!total) { + return callback(null); + } + + var errored = false; + var completed = 0; + var db = src.type === 'remote' ? src.db : dst.db; + var transaction = db.transaction([IDBFS.DB_STORE_NAME], 'readwrite'); + var store = transaction.objectStore(IDBFS.DB_STORE_NAME); + + function done(err) { + if (err) { + if (!done.errored) { + done.errored = true; + return callback(err); + } + return; + } + if (++completed >= total) { + return callback(null); + } + }; + + transaction.onerror = function() { done(this.error); }; + + // sort paths in ascending order so directory entries are created + // before the files inside them + create.sort().forEach(function (path) { + if (dst.type === 'local') { + IDBFS.loadRemoteEntry(store, path, function (err, entry) { + if (err) return done(err); + IDBFS.storeLocalEntry(path, entry, done); + }); + } else { + IDBFS.loadLocalEntry(path, function (err, entry) { + if (err) return done(err); + IDBFS.storeRemoteEntry(store, path, entry, done); + }); + } + }); + + // sort paths in descending order so files are deleted before their + // parent directories + remove.sort().reverse().forEach(function(path) { + if (dst.type === 'local') { + IDBFS.removeLocalEntry(path, done); + } else { + IDBFS.removeRemoteEntry(store, path, done); + } + }); + }}; + + var NODEFS={isWindows:false,staticInit:function () { + NODEFS.isWindows = !!process.platform.match(/^win/); + },mount:function (mount) { + assert(ENVIRONMENT_IS_NODE); + return NODEFS.createNode(null, '/', NODEFS.getMode(mount.opts.root), 0); + },createNode:function (parent, name, mode, dev) { + if (!FS.isDir(mode) && !FS.isFile(mode) && !FS.isLink(mode)) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + var node = FS.createNode(parent, name, mode); + node.node_ops = NODEFS.node_ops; + node.stream_ops = NODEFS.stream_ops; + return node; + },getMode:function (path) { + var stat; + try { + stat = fs.lstatSync(path); + if (NODEFS.isWindows) { + // On Windows, directories return permission bits 'rw-rw-rw-', even though they have 'rwxrwxrwx', so + // propagate write bits to execute bits. + stat.mode = stat.mode | ((stat.mode & 146) >> 1); + } + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + return stat.mode; + },realPath:function (node) { + var parts = []; + while (node.parent !== node) { + parts.push(node.name); + node = node.parent; + } + parts.push(node.mount.opts.root); + parts.reverse(); + return PATH.join.apply(null, parts); + },flagsToPermissionStringMap:{0:"r",1:"r+",2:"r+",64:"r",65:"r+",66:"r+",129:"rx+",193:"rx+",514:"w+",577:"w",578:"w+",705:"wx",706:"wx+",1024:"a",1025:"a",1026:"a+",1089:"a",1090:"a+",1153:"ax",1154:"ax+",1217:"ax",1218:"ax+",4096:"rs",4098:"rs+"},flagsToPermissionString:function (flags) { + if (flags in NODEFS.flagsToPermissionStringMap) { + return NODEFS.flagsToPermissionStringMap[flags]; + } else { + return flags; + } + },node_ops:{getattr:function (node) { + var path = NODEFS.realPath(node); + var stat; + try { + stat = fs.lstatSync(path); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + // node.js v0.10.20 doesn't report blksize and blocks on Windows. Fake them with default blksize of 4096. + // See http://support.microsoft.com/kb/140365 + if (NODEFS.isWindows && !stat.blksize) { + stat.blksize = 4096; + } + if (NODEFS.isWindows && !stat.blocks) { + stat.blocks = (stat.size+stat.blksize-1)/stat.blksize|0; + } + return { + dev: stat.dev, + ino: stat.ino, + mode: stat.mode, + nlink: stat.nlink, + uid: stat.uid, + gid: stat.gid, + rdev: stat.rdev, + size: stat.size, + atime: stat.atime, + mtime: stat.mtime, + ctime: stat.ctime, + blksize: stat.blksize, + blocks: stat.blocks + }; + },setattr:function (node, attr) { + var path = NODEFS.realPath(node); + try { + if (attr.mode !== undefined) { + fs.chmodSync(path, attr.mode); + // update the common node structure mode as well + node.mode = attr.mode; + } + if (attr.timestamp !== undefined) { + var date = new Date(attr.timestamp); + fs.utimesSync(path, date, date); + } + if (attr.size !== undefined) { + fs.truncateSync(path, attr.size); + } + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },lookup:function (parent, name) { + var path = PATH.join2(NODEFS.realPath(parent), name); + var mode = NODEFS.getMode(path); + return NODEFS.createNode(parent, name, mode); + },mknod:function (parent, name, mode, dev) { + var node = NODEFS.createNode(parent, name, mode, dev); + // create the backing node for this in the fs root as well + var path = NODEFS.realPath(node); + try { + if (FS.isDir(node.mode)) { + fs.mkdirSync(path, node.mode); + } else { + fs.writeFileSync(path, '', { mode: node.mode }); + } + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + return node; + },rename:function (oldNode, newDir, newName) { + var oldPath = NODEFS.realPath(oldNode); + var newPath = PATH.join2(NODEFS.realPath(newDir), newName); + try { + fs.renameSync(oldPath, newPath); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },unlink:function (parent, name) { + var path = PATH.join2(NODEFS.realPath(parent), name); + try { + fs.unlinkSync(path); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },rmdir:function (parent, name) { + var path = PATH.join2(NODEFS.realPath(parent), name); + try { + fs.rmdirSync(path); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },readdir:function (node) { + var path = NODEFS.realPath(node); + try { + return fs.readdirSync(path); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },symlink:function (parent, newName, oldPath) { + var newPath = PATH.join2(NODEFS.realPath(parent), newName); + try { + fs.symlinkSync(oldPath, newPath); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },readlink:function (node) { + var path = NODEFS.realPath(node); + try { + return fs.readlinkSync(path); + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + }},stream_ops:{open:function (stream) { + var path = NODEFS.realPath(stream.node); + try { + if (FS.isFile(stream.node.mode)) { + stream.nfd = fs.openSync(path, NODEFS.flagsToPermissionString(stream.flags)); + } + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },close:function (stream) { + try { + if (FS.isFile(stream.node.mode) && stream.nfd) { + fs.closeSync(stream.nfd); + } + } catch (e) { + if (!e.code) throw e; + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + },read:function (stream, buffer, offset, length, position) { + if (length === 0) return 0; // node errors on 0 length reads + // FIXME this is terrible. + var nbuffer = new Buffer(length); + var res; + try { + res = fs.readSync(stream.nfd, nbuffer, 0, length, position); + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + if (res > 0) { + for (var i = 0; i < res; i++) { + buffer[offset + i] = nbuffer[i]; + } + } + return res; + },write:function (stream, buffer, offset, length, position) { + // FIXME this is terrible. + var nbuffer = new Buffer(buffer.subarray(offset, offset + length)); + var res; + try { + res = fs.writeSync(stream.nfd, nbuffer, 0, length, position); + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + return res; + },llseek:function (stream, offset, whence) { + var position = offset; + if (whence === 1) { // SEEK_CUR. + position += stream.position; + } else if (whence === 2) { // SEEK_END. + if (FS.isFile(stream.node.mode)) { + try { + var stat = fs.fstatSync(stream.nfd); + position += stat.size; + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES[e.code]); + } + } + } + + if (position < 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + + return position; + }}}; + + var _stdin=allocate(1, "i32*", ALLOC_STATIC); + + var _stdout=allocate(1, "i32*", ALLOC_STATIC); + + var _stderr=allocate(1, "i32*", ALLOC_STATIC); + + function _fflush(stream) { + // int fflush(FILE *stream); + // http://pubs.opengroup.org/onlinepubs/000095399/functions/fflush.html + + /* + // Disabled, see https://github.com/kripken/emscripten/issues/2770 + stream = FS.getStreamFromPtr(stream); + if (stream.stream_ops.flush) { + stream.stream_ops.flush(stream); + } + */ + }var FS={root:null,mounts:[],devices:[null],streams:[],nextInode:1,nameTable:null,currentPath:"/",initialized:false,ignorePermissions:true,trackingDelegate:{},tracking:{openFlags:{READ:1,WRITE:2}},ErrnoError:null,genericErrors:{},handleFSError:function (e) { + if (!(e instanceof FS.ErrnoError)) throw e + ' : ' + stackTrace(); + return ___setErrNo(e.errno); + },lookupPath:function (path, opts) { + path = PATH.resolve(FS.cwd(), path); + opts = opts || {}; + + if (!path) return { path: '', node: null }; + + var defaults = { + follow_mount: true, + recurse_count: 0 + }; + for (var key in defaults) { + if (opts[key] === undefined) { + opts[key] = defaults[key]; + } + } + + if (opts.recurse_count > 8) { // max recursive lookup of 8 + throw new FS.ErrnoError(ERRNO_CODES.ELOOP); + } + + // split the path + var parts = PATH.normalizeArray(path.split('/').filter(function(p) { + return !!p; + }), false); + + // start at the root + var current = FS.root; + var current_path = '/'; + + for (var i = 0; i < parts.length; i++) { + var islast = (i === parts.length-1); + if (islast && opts.parent) { + // stop resolving + break; + } + + current = FS.lookupNode(current, parts[i]); + current_path = PATH.join2(current_path, parts[i]); + + // jump to the mount's root node if this is a mountpoint + if (FS.isMountpoint(current)) { + if (!islast || (islast && opts.follow_mount)) { + current = current.mounted.root; + } + } + + // by default, lookupPath will not follow a symlink if it is the final path component. + // setting opts.follow = true will override this behavior. + if (!islast || opts.follow) { + var count = 0; + while (FS.isLink(current.mode)) { + var link = FS.readlink(current_path); + current_path = PATH.resolve(PATH.dirname(current_path), link); + + var lookup = FS.lookupPath(current_path, { recurse_count: opts.recurse_count }); + current = lookup.node; + + if (count++ > 40) { // limit max consecutive symlinks to 40 (SYMLOOP_MAX). + throw new FS.ErrnoError(ERRNO_CODES.ELOOP); + } + } + } + } + + return { path: current_path, node: current }; + },getPath:function (node) { + var path; + while (true) { + if (FS.isRoot(node)) { + var mount = node.mount.mountpoint; + if (!path) return mount; + return mount[mount.length-1] !== '/' ? mount + '/' + path : mount + path; + } + path = path ? node.name + '/' + path : node.name; + node = node.parent; + } + },hashName:function (parentid, name) { + var hash = 0; + + + for (var i = 0; i < name.length; i++) { + hash = ((hash << 5) - hash + name.charCodeAt(i)) | 0; + } + return ((parentid + hash) >>> 0) % FS.nameTable.length; + },hashAddNode:function (node) { + var hash = FS.hashName(node.parent.id, node.name); + node.name_next = FS.nameTable[hash]; + FS.nameTable[hash] = node; + },hashRemoveNode:function (node) { + var hash = FS.hashName(node.parent.id, node.name); + if (FS.nameTable[hash] === node) { + FS.nameTable[hash] = node.name_next; + } else { + var current = FS.nameTable[hash]; + while (current) { + if (current.name_next === node) { + current.name_next = node.name_next; + break; + } + current = current.name_next; + } + } + },lookupNode:function (parent, name) { + var err = FS.mayLookup(parent); + if (err) { + throw new FS.ErrnoError(err, parent); + } + var hash = FS.hashName(parent.id, name); + for (var node = FS.nameTable[hash]; node; node = node.name_next) { + var nodeName = node.name; + if (node.parent.id === parent.id && nodeName === name) { + return node; + } + } + // if we failed to find it in the cache, call into the VFS + return FS.lookup(parent, name); + },createNode:function (parent, name, mode, rdev) { + if (!FS.FSNode) { + FS.FSNode = function(parent, name, mode, rdev) { + if (!parent) { + parent = this; // root node sets parent to itself + } + this.parent = parent; + this.mount = parent.mount; + this.mounted = null; + this.id = FS.nextInode++; + this.name = name; + this.mode = mode; + this.node_ops = {}; + this.stream_ops = {}; + this.rdev = rdev; + }; + + FS.FSNode.prototype = {}; + + // compatibility + var readMode = 292 | 73; + var writeMode = 146; + + // NOTE we must use Object.defineProperties instead of individual calls to + // Object.defineProperty in order to make closure compiler happy + Object.defineProperties(FS.FSNode.prototype, { + read: { + get: function() { return (this.mode & readMode) === readMode; }, + set: function(val) { val ? this.mode |= readMode : this.mode &= ~readMode; } + }, + write: { + get: function() { return (this.mode & writeMode) === writeMode; }, + set: function(val) { val ? this.mode |= writeMode : this.mode &= ~writeMode; } + }, + isFolder: { + get: function() { return FS.isDir(this.mode); } + }, + isDevice: { + get: function() { return FS.isChrdev(this.mode); } + } + }); + } + + var node = new FS.FSNode(parent, name, mode, rdev); + + FS.hashAddNode(node); + + return node; + },destroyNode:function (node) { + FS.hashRemoveNode(node); + },isRoot:function (node) { + return node === node.parent; + },isMountpoint:function (node) { + return !!node.mounted; + },isFile:function (mode) { + return (mode & 61440) === 32768; + },isDir:function (mode) { + return (mode & 61440) === 16384; + },isLink:function (mode) { + return (mode & 61440) === 40960; + },isChrdev:function (mode) { + return (mode & 61440) === 8192; + },isBlkdev:function (mode) { + return (mode & 61440) === 24576; + },isFIFO:function (mode) { + return (mode & 61440) === 4096; + },isSocket:function (mode) { + return (mode & 49152) === 49152; + },flagModes:{"r":0,"rs":1052672,"r+":2,"w":577,"wx":705,"xw":705,"w+":578,"wx+":706,"xw+":706,"a":1089,"ax":1217,"xa":1217,"a+":1090,"ax+":1218,"xa+":1218},modeStringToFlags:function (str) { + var flags = FS.flagModes[str]; + if (typeof flags === 'undefined') { + throw new Error('Unknown file open mode: ' + str); + } + return flags; + },flagsToPermissionString:function (flag) { + var accmode = flag & 2097155; + var perms = ['r', 'w', 'rw'][accmode]; + if ((flag & 512)) { + perms += 'w'; + } + return perms; + },nodePermissions:function (node, perms) { + if (FS.ignorePermissions) { + return 0; + } + // return 0 if any user, group or owner bits are set. + if (perms.indexOf('r') !== -1 && !(node.mode & 292)) { + return ERRNO_CODES.EACCES; + } else if (perms.indexOf('w') !== -1 && !(node.mode & 146)) { + return ERRNO_CODES.EACCES; + } else if (perms.indexOf('x') !== -1 && !(node.mode & 73)) { + return ERRNO_CODES.EACCES; + } + return 0; + },mayLookup:function (dir) { + var err = FS.nodePermissions(dir, 'x'); + if (err) return err; + if (!dir.node_ops.lookup) return ERRNO_CODES.EACCES; + return 0; + },mayCreate:function (dir, name) { + try { + var node = FS.lookupNode(dir, name); + return ERRNO_CODES.EEXIST; + } catch (e) { + } + return FS.nodePermissions(dir, 'wx'); + },mayDelete:function (dir, name, isdir) { + var node; + try { + node = FS.lookupNode(dir, name); + } catch (e) { + return e.errno; + } + var err = FS.nodePermissions(dir, 'wx'); + if (err) { + return err; + } + if (isdir) { + if (!FS.isDir(node.mode)) { + return ERRNO_CODES.ENOTDIR; + } + if (FS.isRoot(node) || FS.getPath(node) === FS.cwd()) { + return ERRNO_CODES.EBUSY; + } + } else { + if (FS.isDir(node.mode)) { + return ERRNO_CODES.EISDIR; + } + } + return 0; + },mayOpen:function (node, flags) { + if (!node) { + return ERRNO_CODES.ENOENT; + } + if (FS.isLink(node.mode)) { + return ERRNO_CODES.ELOOP; + } else if (FS.isDir(node.mode)) { + if ((flags & 2097155) !== 0 || // opening for write + (flags & 512)) { + return ERRNO_CODES.EISDIR; + } + } + return FS.nodePermissions(node, FS.flagsToPermissionString(flags)); + },MAX_OPEN_FDS:4096,nextfd:function (fd_start, fd_end) { + fd_start = fd_start || 0; + fd_end = fd_end || FS.MAX_OPEN_FDS; + for (var fd = fd_start; fd <= fd_end; fd++) { + if (!FS.streams[fd]) { + return fd; + } + } + throw new FS.ErrnoError(ERRNO_CODES.EMFILE); + },getStream:function (fd) { + return FS.streams[fd]; + },createStream:function (stream, fd_start, fd_end) { + if (!FS.FSStream) { + FS.FSStream = function(){}; + FS.FSStream.prototype = {}; + // compatibility + Object.defineProperties(FS.FSStream.prototype, { + object: { + get: function() { return this.node; }, + set: function(val) { this.node = val; } + }, + isRead: { + get: function() { return (this.flags & 2097155) !== 1; } + }, + isWrite: { + get: function() { return (this.flags & 2097155) !== 0; } + }, + isAppend: { + get: function() { return (this.flags & 1024); } + } + }); + } + // clone it, so we can return an instance of FSStream + var newStream = new FS.FSStream(); + for (var p in stream) { + newStream[p] = stream[p]; + } + stream = newStream; + var fd = FS.nextfd(fd_start, fd_end); + stream.fd = fd; + FS.streams[fd] = stream; + return stream; + },closeStream:function (fd) { + FS.streams[fd] = null; + },getStreamFromPtr:function (ptr) { + return FS.streams[ptr - 1]; + },getPtrForStream:function (stream) { + return stream ? stream.fd + 1 : 0; + },chrdev_stream_ops:{open:function (stream) { + var device = FS.getDevice(stream.node.rdev); + // override node's stream ops with the device's + stream.stream_ops = device.stream_ops; + // forward the open call + if (stream.stream_ops.open) { + stream.stream_ops.open(stream); + } + },llseek:function () { + throw new FS.ErrnoError(ERRNO_CODES.ESPIPE); + }},major:function (dev) { + return ((dev) >> 8); + },minor:function (dev) { + return ((dev) & 0xff); + },makedev:function (ma, mi) { + return ((ma) << 8 | (mi)); + },registerDevice:function (dev, ops) { + FS.devices[dev] = { stream_ops: ops }; + },getDevice:function (dev) { + return FS.devices[dev]; + },getMounts:function (mount) { + var mounts = []; + var check = [mount]; + + while (check.length) { + var m = check.pop(); + + mounts.push(m); + + check.push.apply(check, m.mounts); + } + + return mounts; + },syncfs:function (populate, callback) { + if (typeof(populate) === 'function') { + callback = populate; + populate = false; + } + + var mounts = FS.getMounts(FS.root.mount); + var completed = 0; + + function done(err) { + if (err) { + if (!done.errored) { + done.errored = true; + return callback(err); + } + return; + } + if (++completed >= mounts.length) { + callback(null); + } + }; + + // sync all mounts + mounts.forEach(function (mount) { + if (!mount.type.syncfs) { + return done(null); + } + mount.type.syncfs(mount, populate, done); + }); + },mount:function (type, opts, mountpoint) { + var root = mountpoint === '/'; + var pseudo = !mountpoint; + var node; + + if (root && FS.root) { + throw new FS.ErrnoError(ERRNO_CODES.EBUSY); + } else if (!root && !pseudo) { + var lookup = FS.lookupPath(mountpoint, { follow_mount: false }); + + mountpoint = lookup.path; // use the absolute path + node = lookup.node; + + if (FS.isMountpoint(node)) { + throw new FS.ErrnoError(ERRNO_CODES.EBUSY); + } + + if (!FS.isDir(node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR); + } + } + + var mount = { + type: type, + opts: opts, + mountpoint: mountpoint, + mounts: [] + }; + + // create a root node for the fs + var mountRoot = type.mount(mount); + mountRoot.mount = mount; + mount.root = mountRoot; + + if (root) { + FS.root = mountRoot; + } else if (node) { + // set as a mountpoint + node.mounted = mount; + + // add the new mount to the current mount's children + if (node.mount) { + node.mount.mounts.push(mount); + } + } + + return mountRoot; + },unmount:function (mountpoint) { + var lookup = FS.lookupPath(mountpoint, { follow_mount: false }); + + if (!FS.isMountpoint(lookup.node)) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + + // destroy the nodes for this mount, and all its child mounts + var node = lookup.node; + var mount = node.mounted; + var mounts = FS.getMounts(mount); + + Object.keys(FS.nameTable).forEach(function (hash) { + var current = FS.nameTable[hash]; + + while (current) { + var next = current.name_next; + + if (mounts.indexOf(current.mount) !== -1) { + FS.destroyNode(current); + } + + current = next; + } + }); + + // no longer a mountpoint + node.mounted = null; + + // remove this mount from the child mounts + var idx = node.mount.mounts.indexOf(mount); + assert(idx !== -1); + node.mount.mounts.splice(idx, 1); + },lookup:function (parent, name) { + return parent.node_ops.lookup(parent, name); + },mknod:function (path, mode, dev) { + var lookup = FS.lookupPath(path, { parent: true }); + var parent = lookup.node; + var name = PATH.basename(path); + if (!name || name === '.' || name === '..') { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + var err = FS.mayCreate(parent, name); + if (err) { + throw new FS.ErrnoError(err); + } + if (!parent.node_ops.mknod) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + return parent.node_ops.mknod(parent, name, mode, dev); + },create:function (path, mode) { + mode = mode !== undefined ? mode : 438 /* 0666 */; + mode &= 4095; + mode |= 32768; + return FS.mknod(path, mode, 0); + },mkdir:function (path, mode) { + mode = mode !== undefined ? mode : 511 /* 0777 */; + mode &= 511 | 512; + mode |= 16384; + return FS.mknod(path, mode, 0); + },mkdev:function (path, mode, dev) { + if (typeof(dev) === 'undefined') { + dev = mode; + mode = 438 /* 0666 */; + } + mode |= 8192; + return FS.mknod(path, mode, dev); + },symlink:function (oldpath, newpath) { + if (!PATH.resolve(oldpath)) { + throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + } + var lookup = FS.lookupPath(newpath, { parent: true }); + var parent = lookup.node; + if (!parent) { + throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + } + var newname = PATH.basename(newpath); + var err = FS.mayCreate(parent, newname); + if (err) { + throw new FS.ErrnoError(err); + } + if (!parent.node_ops.symlink) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + return parent.node_ops.symlink(parent, newname, oldpath); + },rename:function (old_path, new_path) { + var old_dirname = PATH.dirname(old_path); + var new_dirname = PATH.dirname(new_path); + var old_name = PATH.basename(old_path); + var new_name = PATH.basename(new_path); + // parents must exist + var lookup, old_dir, new_dir; + try { + lookup = FS.lookupPath(old_path, { parent: true }); + old_dir = lookup.node; + lookup = FS.lookupPath(new_path, { parent: true }); + new_dir = lookup.node; + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES.EBUSY); + } + if (!old_dir || !new_dir) throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + // need to be part of the same mount + if (old_dir.mount !== new_dir.mount) { + throw new FS.ErrnoError(ERRNO_CODES.EXDEV); + } + // source must exist + var old_node = FS.lookupNode(old_dir, old_name); + // old path should not be an ancestor of the new path + var relative = PATH.relative(old_path, new_dirname); + if (relative.charAt(0) !== '.') { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + // new path should not be an ancestor of the old path + relative = PATH.relative(new_path, old_dirname); + if (relative.charAt(0) !== '.') { + throw new FS.ErrnoError(ERRNO_CODES.ENOTEMPTY); + } + // see if the new path already exists + var new_node; + try { + new_node = FS.lookupNode(new_dir, new_name); + } catch (e) { + // not fatal + } + // early out if nothing needs to change + if (old_node === new_node) { + return; + } + // we'll need to delete the old entry + var isdir = FS.isDir(old_node.mode); + var err = FS.mayDelete(old_dir, old_name, isdir); + if (err) { + throw new FS.ErrnoError(err); + } + // need delete permissions if we'll be overwriting. + // need create permissions if new doesn't already exist. + err = new_node ? + FS.mayDelete(new_dir, new_name, isdir) : + FS.mayCreate(new_dir, new_name); + if (err) { + throw new FS.ErrnoError(err); + } + if (!old_dir.node_ops.rename) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + if (FS.isMountpoint(old_node) || (new_node && FS.isMountpoint(new_node))) { + throw new FS.ErrnoError(ERRNO_CODES.EBUSY); + } + // if we are going to change the parent, check write permissions + if (new_dir !== old_dir) { + err = FS.nodePermissions(old_dir, 'w'); + if (err) { + throw new FS.ErrnoError(err); + } + } + try { + if (FS.trackingDelegate['willMovePath']) { + FS.trackingDelegate['willMovePath'](old_path, new_path); + } + } catch(e) { + console.log("FS.trackingDelegate['willMovePath']('"+old_path+"', '"+new_path+"') threw an exception: " + e.message); + } + // remove the node from the lookup hash + FS.hashRemoveNode(old_node); + // do the underlying fs rename + try { + old_dir.node_ops.rename(old_node, new_dir, new_name); + } catch (e) { + throw e; + } finally { + // add the node back to the hash (in case node_ops.rename + // changed its name) + FS.hashAddNode(old_node); + } + try { + if (FS.trackingDelegate['onMovePath']) FS.trackingDelegate['onMovePath'](old_path, new_path); + } catch(e) { + console.log("FS.trackingDelegate['onMovePath']('"+old_path+"', '"+new_path+"') threw an exception: " + e.message); + } + },rmdir:function (path) { + var lookup = FS.lookupPath(path, { parent: true }); + var parent = lookup.node; + var name = PATH.basename(path); + var node = FS.lookupNode(parent, name); + var err = FS.mayDelete(parent, name, true); + if (err) { + throw new FS.ErrnoError(err); + } + if (!parent.node_ops.rmdir) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + if (FS.isMountpoint(node)) { + throw new FS.ErrnoError(ERRNO_CODES.EBUSY); + } + try { + if (FS.trackingDelegate['willDeletePath']) { + FS.trackingDelegate['willDeletePath'](path); + } + } catch(e) { + console.log("FS.trackingDelegate['willDeletePath']('"+path+"') threw an exception: " + e.message); + } + parent.node_ops.rmdir(parent, name); + FS.destroyNode(node); + try { + if (FS.trackingDelegate['onDeletePath']) FS.trackingDelegate['onDeletePath'](path); + } catch(e) { + console.log("FS.trackingDelegate['onDeletePath']('"+path+"') threw an exception: " + e.message); + } + },readdir:function (path) { + var lookup = FS.lookupPath(path, { follow: true }); + var node = lookup.node; + if (!node.node_ops.readdir) { + throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR); + } + return node.node_ops.readdir(node); + },unlink:function (path) { + var lookup = FS.lookupPath(path, { parent: true }); + var parent = lookup.node; + var name = PATH.basename(path); + var node = FS.lookupNode(parent, name); + var err = FS.mayDelete(parent, name, false); + if (err) { + // POSIX says unlink should set EPERM, not EISDIR + if (err === ERRNO_CODES.EISDIR) err = ERRNO_CODES.EPERM; + throw new FS.ErrnoError(err); + } + if (!parent.node_ops.unlink) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + if (FS.isMountpoint(node)) { + throw new FS.ErrnoError(ERRNO_CODES.EBUSY); + } + try { + if (FS.trackingDelegate['willDeletePath']) { + FS.trackingDelegate['willDeletePath'](path); + } + } catch(e) { + console.log("FS.trackingDelegate['willDeletePath']('"+path+"') threw an exception: " + e.message); + } + parent.node_ops.unlink(parent, name); + FS.destroyNode(node); + try { + if (FS.trackingDelegate['onDeletePath']) FS.trackingDelegate['onDeletePath'](path); + } catch(e) { + console.log("FS.trackingDelegate['onDeletePath']('"+path+"') threw an exception: " + e.message); + } + },readlink:function (path) { + var lookup = FS.lookupPath(path); + var link = lookup.node; + if (!link) { + throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + } + if (!link.node_ops.readlink) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + return link.node_ops.readlink(link); + },stat:function (path, dontFollow) { + var lookup = FS.lookupPath(path, { follow: !dontFollow }); + var node = lookup.node; + if (!node) { + throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + } + if (!node.node_ops.getattr) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + return node.node_ops.getattr(node); + },lstat:function (path) { + return FS.stat(path, true); + },chmod:function (path, mode, dontFollow) { + var node; + if (typeof path === 'string') { + var lookup = FS.lookupPath(path, { follow: !dontFollow }); + node = lookup.node; + } else { + node = path; + } + if (!node.node_ops.setattr) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + node.node_ops.setattr(node, { + mode: (mode & 4095) | (node.mode & ~4095), + timestamp: Date.now() + }); + },lchmod:function (path, mode) { + FS.chmod(path, mode, true); + },fchmod:function (fd, mode) { + var stream = FS.getStream(fd); + if (!stream) { + throw new FS.ErrnoError(ERRNO_CODES.EBADF); + } + FS.chmod(stream.node, mode); + },chown:function (path, uid, gid, dontFollow) { + var node; + if (typeof path === 'string') { + var lookup = FS.lookupPath(path, { follow: !dontFollow }); + node = lookup.node; + } else { + node = path; + } + if (!node.node_ops.setattr) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + node.node_ops.setattr(node, { + timestamp: Date.now() + // we ignore the uid / gid for now + }); + },lchown:function (path, uid, gid) { + FS.chown(path, uid, gid, true); + },fchown:function (fd, uid, gid) { + var stream = FS.getStream(fd); + if (!stream) { + throw new FS.ErrnoError(ERRNO_CODES.EBADF); + } + FS.chown(stream.node, uid, gid); + },truncate:function (path, len) { + if (len < 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + var node; + if (typeof path === 'string') { + var lookup = FS.lookupPath(path, { follow: true }); + node = lookup.node; + } else { + node = path; + } + if (!node.node_ops.setattr) { + throw new FS.ErrnoError(ERRNO_CODES.EPERM); + } + if (FS.isDir(node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.EISDIR); + } + if (!FS.isFile(node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + var err = FS.nodePermissions(node, 'w'); + if (err) { + throw new FS.ErrnoError(err); + } + node.node_ops.setattr(node, { + size: len, + timestamp: Date.now() + }); + },ftruncate:function (fd, len) { + var stream = FS.getStream(fd); + if (!stream) { + throw new FS.ErrnoError(ERRNO_CODES.EBADF); + } + if ((stream.flags & 2097155) === 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + FS.truncate(stream.node, len); + },utime:function (path, atime, mtime) { + var lookup = FS.lookupPath(path, { follow: true }); + var node = lookup.node; + node.node_ops.setattr(node, { + timestamp: Math.max(atime, mtime) + }); + },open:function (path, flags, mode, fd_start, fd_end) { + if (path === "") { + throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + } + flags = typeof flags === 'string' ? FS.modeStringToFlags(flags) : flags; + mode = typeof mode === 'undefined' ? 438 /* 0666 */ : mode; + if ((flags & 64)) { + mode = (mode & 4095) | 32768; + } else { + mode = 0; + } + var node; + if (typeof path === 'object') { + node = path; + } else { + path = PATH.normalize(path); + try { + var lookup = FS.lookupPath(path, { + follow: !(flags & 131072) + }); + node = lookup.node; + } catch (e) { + // ignore + } + } + // perhaps we need to create the node + var created = false; + if ((flags & 64)) { + if (node) { + // if O_CREAT and O_EXCL are set, error out if the node already exists + if ((flags & 128)) { + throw new FS.ErrnoError(ERRNO_CODES.EEXIST); + } + } else { + // node doesn't exist, try to create it + node = FS.mknod(path, mode, 0); + created = true; + } + } + if (!node) { + throw new FS.ErrnoError(ERRNO_CODES.ENOENT); + } + // can't truncate a device + if (FS.isChrdev(node.mode)) { + flags &= ~512; + } + // check permissions, if this is not a file we just created now (it is ok to + // create and write to a file with read-only permissions; it is read-only + // for later use) + if (!created) { + var err = FS.mayOpen(node, flags); + if (err) { + throw new FS.ErrnoError(err); + } + } + // do truncation if necessary + if ((flags & 512)) { + FS.truncate(node, 0); + } + // we've already handled these, don't pass down to the underlying vfs + flags &= ~(128 | 512); + + // register the stream with the filesystem + var stream = FS.createStream({ + node: node, + path: FS.getPath(node), // we want the absolute path to the node + flags: flags, + seekable: true, + position: 0, + stream_ops: node.stream_ops, + // used by the file family libc calls (fopen, fwrite, ferror, etc.) + ungotten: [], + error: false + }, fd_start, fd_end); + // call the new stream's open function + if (stream.stream_ops.open) { + stream.stream_ops.open(stream); + } + if (Module['logReadFiles'] && !(flags & 1)) { + if (!FS.readFiles) FS.readFiles = {}; + if (!(path in FS.readFiles)) { + FS.readFiles[path] = 1; + Module['printErr']('read file: ' + path); + } + } + try { + if (FS.trackingDelegate['onOpenFile']) { + var trackingFlags = 0; + if ((flags & 2097155) !== 1) { + trackingFlags |= FS.tracking.openFlags.READ; + } + if ((flags & 2097155) !== 0) { + trackingFlags |= FS.tracking.openFlags.WRITE; + } + FS.trackingDelegate['onOpenFile'](path, trackingFlags); + } + } catch(e) { + console.log("FS.trackingDelegate['onOpenFile']('"+path+"', flags) threw an exception: " + e.message); + } + return stream; + },close:function (stream) { + try { + if (stream.stream_ops.close) { + stream.stream_ops.close(stream); + } + } catch (e) { + throw e; + } finally { + FS.closeStream(stream.fd); + } + },llseek:function (stream, offset, whence) { + if (!stream.seekable || !stream.stream_ops.llseek) { + throw new FS.ErrnoError(ERRNO_CODES.ESPIPE); + } + stream.position = stream.stream_ops.llseek(stream, offset, whence); + stream.ungotten = []; + return stream.position; + },read:function (stream, buffer, offset, length, position) { + if (length < 0 || position < 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + if ((stream.flags & 2097155) === 1) { + throw new FS.ErrnoError(ERRNO_CODES.EBADF); + } + if (FS.isDir(stream.node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.EISDIR); + } + if (!stream.stream_ops.read) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + var seeking = true; + if (typeof position === 'undefined') { + position = stream.position; + seeking = false; + } else if (!stream.seekable) { + throw new FS.ErrnoError(ERRNO_CODES.ESPIPE); + } + var bytesRead = stream.stream_ops.read(stream, buffer, offset, length, position); + if (!seeking) stream.position += bytesRead; + return bytesRead; + },write:function (stream, buffer, offset, length, position, canOwn) { + if (length < 0 || position < 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + if ((stream.flags & 2097155) === 0) { + throw new FS.ErrnoError(ERRNO_CODES.EBADF); + } + if (FS.isDir(stream.node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.EISDIR); + } + if (!stream.stream_ops.write) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + if (stream.flags & 1024) { + // seek to the end before writing in append mode + FS.llseek(stream, 0, 2); + } + var seeking = true; + if (typeof position === 'undefined') { + position = stream.position; + seeking = false; + } else if (!stream.seekable) { + throw new FS.ErrnoError(ERRNO_CODES.ESPIPE); + } + var bytesWritten = stream.stream_ops.write(stream, buffer, offset, length, position, canOwn); + if (!seeking) stream.position += bytesWritten; + try { + if (stream.path && FS.trackingDelegate['onWriteToFile']) FS.trackingDelegate['onWriteToFile'](stream.path); + } catch(e) { + console.log("FS.trackingDelegate['onWriteToFile']('"+path+"') threw an exception: " + e.message); + } + return bytesWritten; + },allocate:function (stream, offset, length) { + if (offset < 0 || length <= 0) { + throw new FS.ErrnoError(ERRNO_CODES.EINVAL); + } + if ((stream.flags & 2097155) === 0) { + throw new FS.ErrnoError(ERRNO_CODES.EBADF); + } + if (!FS.isFile(stream.node.mode) && !FS.isDir(node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.ENODEV); + } + if (!stream.stream_ops.allocate) { + throw new FS.ErrnoError(ERRNO_CODES.EOPNOTSUPP); + } + stream.stream_ops.allocate(stream, offset, length); + },mmap:function (stream, buffer, offset, length, position, prot, flags) { + // TODO if PROT is PROT_WRITE, make sure we have write access + if ((stream.flags & 2097155) === 1) { + throw new FS.ErrnoError(ERRNO_CODES.EACCES); + } + if (!stream.stream_ops.mmap) { + throw new FS.ErrnoError(ERRNO_CODES.ENODEV); + } + return stream.stream_ops.mmap(stream, buffer, offset, length, position, prot, flags); + },ioctl:function (stream, cmd, arg) { + if (!stream.stream_ops.ioctl) { + throw new FS.ErrnoError(ERRNO_CODES.ENOTTY); + } + return stream.stream_ops.ioctl(stream, cmd, arg); + },readFile:function (path, opts) { + opts = opts || {}; + opts.flags = opts.flags || 'r'; + opts.encoding = opts.encoding || 'binary'; + if (opts.encoding !== 'utf8' && opts.encoding !== 'binary') { + throw new Error('Invalid encoding type "' + opts.encoding + '"'); + } + var ret; + var stream = FS.open(path, opts.flags); + var stat = FS.stat(path); + var length = stat.size; + var buf = new Uint8Array(length); + FS.read(stream, buf, 0, length, 0); + if (opts.encoding === 'utf8') { + ret = ''; + var utf8 = new Runtime.UTF8Processor(); + for (var i = 0; i < length; i++) { + ret += utf8.processCChar(buf[i]); + } + } else if (opts.encoding === 'binary') { + ret = buf; + } + FS.close(stream); + return ret; + },writeFile:function (path, data, opts) { + opts = opts || {}; + opts.flags = opts.flags || 'w'; + opts.encoding = opts.encoding || 'utf8'; + if (opts.encoding !== 'utf8' && opts.encoding !== 'binary') { + throw new Error('Invalid encoding type "' + opts.encoding + '"'); + } + var stream = FS.open(path, opts.flags, opts.mode); + if (opts.encoding === 'utf8') { + var utf8 = new Runtime.UTF8Processor(); + var buf = new Uint8Array(utf8.processJSString(data)); + FS.write(stream, buf, 0, buf.length, 0, opts.canOwn); + } else if (opts.encoding === 'binary') { + FS.write(stream, data, 0, data.length, 0, opts.canOwn); + } + FS.close(stream); + },cwd:function () { + return FS.currentPath; + },chdir:function (path) { + var lookup = FS.lookupPath(path, { follow: true }); + if (!FS.isDir(lookup.node.mode)) { + throw new FS.ErrnoError(ERRNO_CODES.ENOTDIR); + } + var err = FS.nodePermissions(lookup.node, 'x'); + if (err) { + throw new FS.ErrnoError(err); + } + FS.currentPath = lookup.path; + },createDefaultDirectories:function () { + FS.mkdir('/tmp'); + FS.mkdir('/home'); + FS.mkdir('/home/web_user'); + },createDefaultDevices:function () { + // create /dev + FS.mkdir('/dev'); + // setup /dev/null + FS.registerDevice(FS.makedev(1, 3), { + read: function() { return 0; }, + write: function() { return 0; } + }); + FS.mkdev('/dev/null', FS.makedev(1, 3)); + // setup /dev/tty and /dev/tty1 + // stderr needs to print output using Module['printErr'] + // so we register a second tty just for it. + TTY.register(FS.makedev(5, 0), TTY.default_tty_ops); + TTY.register(FS.makedev(6, 0), TTY.default_tty1_ops); + FS.mkdev('/dev/tty', FS.makedev(5, 0)); + FS.mkdev('/dev/tty1', FS.makedev(6, 0)); + // setup /dev/[u]random + var random_device; + if (typeof crypto !== 'undefined') { + // for modern web browsers + var randomBuffer = new Uint8Array(1); + random_device = function() { crypto.getRandomValues(randomBuffer); return randomBuffer[0]; }; + } else if (ENVIRONMENT_IS_NODE) { + // for nodejs + random_device = function() { return require('crypto').randomBytes(1)[0]; }; + } else { + // default for ES5 platforms + random_device = function() { return (Math.random()*256)|0; }; + } + FS.createDevice('/dev', 'random', random_device); + FS.createDevice('/dev', 'urandom', random_device); + // we're not going to emulate the actual shm device, + // just create the tmp dirs that reside in it commonly + FS.mkdir('/dev/shm'); + FS.mkdir('/dev/shm/tmp'); + },createStandardStreams:function () { + // TODO deprecate the old functionality of a single + // input / output callback and that utilizes FS.createDevice + // and instead require a unique set of stream ops + + // by default, we symlink the standard streams to the + // default tty devices. however, if the standard streams + // have been overwritten we create a unique device for + // them instead. + if (Module['stdin']) { + FS.createDevice('/dev', 'stdin', Module['stdin']); + } else { + FS.symlink('/dev/tty', '/dev/stdin'); + } + if (Module['stdout']) { + FS.createDevice('/dev', 'stdout', null, Module['stdout']); + } else { + FS.symlink('/dev/tty', '/dev/stdout'); + } + if (Module['stderr']) { + FS.createDevice('/dev', 'stderr', null, Module['stderr']); + } else { + FS.symlink('/dev/tty1', '/dev/stderr'); + } + + // open default streams for the stdin, stdout and stderr devices + var stdin = FS.open('/dev/stdin', 'r'); + HEAP32[((_stdin)>>2)]=FS.getPtrForStream(stdin); + assert(stdin.fd === 0, 'invalid handle for stdin (' + stdin.fd + ')'); + + var stdout = FS.open('/dev/stdout', 'w'); + HEAP32[((_stdout)>>2)]=FS.getPtrForStream(stdout); + assert(stdout.fd === 1, 'invalid handle for stdout (' + stdout.fd + ')'); + + var stderr = FS.open('/dev/stderr', 'w'); + HEAP32[((_stderr)>>2)]=FS.getPtrForStream(stderr); + assert(stderr.fd === 2, 'invalid handle for stderr (' + stderr.fd + ')'); + },ensureErrnoError:function () { + if (FS.ErrnoError) return; + FS.ErrnoError = function ErrnoError(errno, node) { + this.node = node; + this.setErrno = function(errno) { + this.errno = errno; + for (var key in ERRNO_CODES) { + if (ERRNO_CODES[key] === errno) { + this.code = key; + break; + } + } + }; + this.setErrno(errno); + this.message = ERRNO_MESSAGES[errno]; + }; + FS.ErrnoError.prototype = new Error(); + FS.ErrnoError.prototype.constructor = FS.ErrnoError; + // Some errors may happen quite a bit, to avoid overhead we reuse them (and suffer a lack of stack info) + [ERRNO_CODES.ENOENT].forEach(function(code) { + FS.genericErrors[code] = new FS.ErrnoError(code); + FS.genericErrors[code].stack = ''; + }); + },staticInit:function () { + FS.ensureErrnoError(); + + FS.nameTable = new Array(4096); + + FS.mount(MEMFS, {}, '/'); + + FS.createDefaultDirectories(); + FS.createDefaultDevices(); + },init:function (input, output, error) { + assert(!FS.init.initialized, 'FS.init was previously called. If you want to initialize later with custom parameters, remove any earlier calls (note that one is automatically added to the generated code)'); + FS.init.initialized = true; + + FS.ensureErrnoError(); + + // Allow Module.stdin etc. to provide defaults, if none explicitly passed to us here + Module['stdin'] = input || Module['stdin']; + Module['stdout'] = output || Module['stdout']; + Module['stderr'] = error || Module['stderr']; + + FS.createStandardStreams(); + },quit:function () { + FS.init.initialized = false; + for (var i = 0; i < FS.streams.length; i++) { + var stream = FS.streams[i]; + if (!stream) { + continue; + } + FS.close(stream); + } + },getMode:function (canRead, canWrite) { + var mode = 0; + if (canRead) mode |= 292 | 73; + if (canWrite) mode |= 146; + return mode; + },joinPath:function (parts, forceRelative) { + var path = PATH.join.apply(null, parts); + if (forceRelative && path[0] == '/') path = path.substr(1); + return path; + },absolutePath:function (relative, base) { + return PATH.resolve(base, relative); + },standardizePath:function (path) { + return PATH.normalize(path); + },findObject:function (path, dontResolveLastLink) { + var ret = FS.analyzePath(path, dontResolveLastLink); + if (ret.exists) { + return ret.object; + } else { + ___setErrNo(ret.error); + return null; + } + },analyzePath:function (path, dontResolveLastLink) { + // operate from within the context of the symlink's target + try { + var lookup = FS.lookupPath(path, { follow: !dontResolveLastLink }); + path = lookup.path; + } catch (e) { + } + var ret = { + isRoot: false, exists: false, error: 0, name: null, path: null, object: null, + parentExists: false, parentPath: null, parentObject: null + }; + try { + var lookup = FS.lookupPath(path, { parent: true }); + ret.parentExists = true; + ret.parentPath = lookup.path; + ret.parentObject = lookup.node; + ret.name = PATH.basename(path); + lookup = FS.lookupPath(path, { follow: !dontResolveLastLink }); + ret.exists = true; + ret.path = lookup.path; + ret.object = lookup.node; + ret.name = lookup.node.name; + ret.isRoot = lookup.path === '/'; + } catch (e) { + ret.error = e.errno; + }; + return ret; + },createFolder:function (parent, name, canRead, canWrite) { + var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name); + var mode = FS.getMode(canRead, canWrite); + return FS.mkdir(path, mode); + },createPath:function (parent, path, canRead, canWrite) { + parent = typeof parent === 'string' ? parent : FS.getPath(parent); + var parts = path.split('/').reverse(); + while (parts.length) { + var part = parts.pop(); + if (!part) continue; + var current = PATH.join2(parent, part); + try { + FS.mkdir(current); + } catch (e) { + // ignore EEXIST + } + parent = current; + } + return current; + },createFile:function (parent, name, properties, canRead, canWrite) { + var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name); + var mode = FS.getMode(canRead, canWrite); + return FS.create(path, mode); + },createDataFile:function (parent, name, data, canRead, canWrite, canOwn) { + var path = name ? PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name) : parent; + var mode = FS.getMode(canRead, canWrite); + var node = FS.create(path, mode); + if (data) { + if (typeof data === 'string') { + var arr = new Array(data.length); + for (var i = 0, len = data.length; i < len; ++i) arr[i] = data.charCodeAt(i); + data = arr; + } + // make sure we can write to the file + FS.chmod(node, mode | 146); + var stream = FS.open(node, 'w'); + FS.write(stream, data, 0, data.length, 0, canOwn); + FS.close(stream); + FS.chmod(node, mode); + } + return node; + },createDevice:function (parent, name, input, output) { + var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name); + var mode = FS.getMode(!!input, !!output); + if (!FS.createDevice.major) FS.createDevice.major = 64; + var dev = FS.makedev(FS.createDevice.major++, 0); + // Create a fake device that a set of stream ops to emulate + // the old behavior. + FS.registerDevice(dev, { + open: function(stream) { + stream.seekable = false; + }, + close: function(stream) { + // flush any pending line data + if (output && output.buffer && output.buffer.length) { + output(10); + } + }, + read: function(stream, buffer, offset, length, pos /* ignored */) { + var bytesRead = 0; + for (var i = 0; i < length; i++) { + var result; + try { + result = input(); + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES.EIO); + } + if (result === undefined && bytesRead === 0) { + throw new FS.ErrnoError(ERRNO_CODES.EAGAIN); + } + if (result === null || result === undefined) break; + bytesRead++; + buffer[offset+i] = result; + } + if (bytesRead) { + stream.node.timestamp = Date.now(); + } + return bytesRead; + }, + write: function(stream, buffer, offset, length, pos) { + for (var i = 0; i < length; i++) { + try { + output(buffer[offset+i]); + } catch (e) { + throw new FS.ErrnoError(ERRNO_CODES.EIO); + } + } + if (length) { + stream.node.timestamp = Date.now(); + } + return i; + } + }); + return FS.mkdev(path, mode, dev); + },createLink:function (parent, name, target, canRead, canWrite) { + var path = PATH.join2(typeof parent === 'string' ? parent : FS.getPath(parent), name); + return FS.symlink(target, path); + },forceLoadFile:function (obj) { + if (obj.isDevice || obj.isFolder || obj.link || obj.contents) return true; + var success = true; + if (typeof XMLHttpRequest !== 'undefined') { + throw new Error("Lazy loading should have been performed (contents set) in createLazyFile, but it was not. Lazy loading only works in web workers. Use --embed-file or --preload-file in emcc on the main thread."); + } else if (Module['read']) { + // Command-line. + try { + // WARNING: Can't read binary files in V8's d8 or tracemonkey's js, as + // read() will try to parse UTF8. + obj.contents = intArrayFromString(Module['read'](obj.url), true); + obj.usedBytes = obj.contents.length; + } catch (e) { + success = false; + } + } else { + throw new Error('Cannot load without read() or XMLHttpRequest.'); + } + if (!success) ___setErrNo(ERRNO_CODES.EIO); + return success; + },createLazyFile:function (parent, name, url, canRead, canWrite) { + // Lazy chunked Uint8Array (implements get and length from Uint8Array). Actual getting is abstracted away for eventual reuse. + function LazyUint8Array() { + this.lengthKnown = false; + this.chunks = []; // Loaded chunks. Index is the chunk number + } + LazyUint8Array.prototype.get = function LazyUint8Array_get(idx) { + if (idx > this.length-1 || idx < 0) { + return undefined; + } + var chunkOffset = idx % this.chunkSize; + var chunkNum = (idx / this.chunkSize)|0; + return this.getter(chunkNum)[chunkOffset]; + } + LazyUint8Array.prototype.setDataGetter = function LazyUint8Array_setDataGetter(getter) { + this.getter = getter; + } + LazyUint8Array.prototype.cacheLength = function LazyUint8Array_cacheLength() { + // Find length + var xhr = new XMLHttpRequest(); + xhr.open('HEAD', url, false); + xhr.send(null); + if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304)) throw new Error("Couldn't load " + url + ". Status: " + xhr.status); + var datalength = Number(xhr.getResponseHeader("Content-length")); + var header; + var hasByteServing = (header = xhr.getResponseHeader("Accept-Ranges")) && header === "bytes"; + var chunkSize = 1024*1024; // Chunk size in bytes + + if (!hasByteServing) chunkSize = datalength; + + // Function to get a range from the remote URL. + var doXHR = (function(from, to) { + if (from > to) throw new Error("invalid range (" + from + ", " + to + ") or no bytes requested!"); + if (to > datalength-1) throw new Error("only " + datalength + " bytes available! programmer error!"); + + // TODO: Use mozResponseArrayBuffer, responseStream, etc. if available. + var xhr = new XMLHttpRequest(); + xhr.open('GET', url, false); + if (datalength !== chunkSize) xhr.setRequestHeader("Range", "bytes=" + from + "-" + to); + + // Some hints to the browser that we want binary data. + if (typeof Uint8Array != 'undefined') xhr.responseType = 'arraybuffer'; + if (xhr.overrideMimeType) { + xhr.overrideMimeType('text/plain; charset=x-user-defined'); + } + + xhr.send(null); + if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304)) throw new Error("Couldn't load " + url + ". Status: " + xhr.status); + if (xhr.response !== undefined) { + return new Uint8Array(xhr.response || []); + } else { + return intArrayFromString(xhr.responseText || '', true); + } + }); + var lazyArray = this; + lazyArray.setDataGetter(function(chunkNum) { + var start = chunkNum * chunkSize; + var end = (chunkNum+1) * chunkSize - 1; // including this byte + end = Math.min(end, datalength-1); // if datalength-1 is selected, this is the last block + if (typeof(lazyArray.chunks[chunkNum]) === "undefined") { + lazyArray.chunks[chunkNum] = doXHR(start, end); + } + if (typeof(lazyArray.chunks[chunkNum]) === "undefined") throw new Error("doXHR failed!"); + return lazyArray.chunks[chunkNum]; + }); + + this._length = datalength; + this._chunkSize = chunkSize; + this.lengthKnown = true; + } + if (typeof XMLHttpRequest !== 'undefined') { + if (!ENVIRONMENT_IS_WORKER) throw 'Cannot do synchronous binary XHRs outside webworkers in modern browsers. Use --embed-file or --preload-file in emcc'; + var lazyArray = new LazyUint8Array(); + Object.defineProperty(lazyArray, "length", { + get: function() { + if(!this.lengthKnown) { + this.cacheLength(); + } + return this._length; + } + }); + Object.defineProperty(lazyArray, "chunkSize", { + get: function() { + if(!this.lengthKnown) { + this.cacheLength(); + } + return this._chunkSize; + } + }); + + var properties = { isDevice: false, contents: lazyArray }; + } else { + var properties = { isDevice: false, url: url }; + } + + var node = FS.createFile(parent, name, properties, canRead, canWrite); + // This is a total hack, but I want to get this lazy file code out of the + // core of MEMFS. If we want to keep this lazy file concept I feel it should + // be its own thin LAZYFS proxying calls to MEMFS. + if (properties.contents) { + node.contents = properties.contents; + } else if (properties.url) { + node.contents = null; + node.url = properties.url; + } + // Add a function that defers querying the file size until it is asked the first time. + Object.defineProperty(node, "usedBytes", { + get: function() { return this.contents.length; } + }); + // override each stream op with one that tries to force load the lazy file first + var stream_ops = {}; + var keys = Object.keys(node.stream_ops); + keys.forEach(function(key) { + var fn = node.stream_ops[key]; + stream_ops[key] = function forceLoadLazyFile() { + if (!FS.forceLoadFile(node)) { + throw new FS.ErrnoError(ERRNO_CODES.EIO); + } + return fn.apply(null, arguments); + }; + }); + // use a custom read function + stream_ops.read = function stream_ops_read(stream, buffer, offset, length, position) { + if (!FS.forceLoadFile(node)) { + throw new FS.ErrnoError(ERRNO_CODES.EIO); + } + var contents = stream.node.contents; + if (position >= contents.length) + return 0; + var size = Math.min(contents.length - position, length); + assert(size >= 0); + if (contents.slice) { // normal array + for (var i = 0; i < size; i++) { + buffer[offset + i] = contents[position + i]; + } + } else { + for (var i = 0; i < size; i++) { // LazyUint8Array from sync binary XHR + buffer[offset + i] = contents.get(position + i); + } + } + return size; + }; + node.stream_ops = stream_ops; + return node; + },createPreloadedFile:function (parent, name, url, canRead, canWrite, onload, onerror, dontCreateFile, canOwn) { + Browser.init(); + // TODO we should allow people to just pass in a complete filename instead + // of parent and name being that we just join them anyways + var fullname = name ? PATH.resolve(PATH.join2(parent, name)) : parent; + function processData(byteArray) { + function finish(byteArray) { + if (!dontCreateFile) { + FS.createDataFile(parent, name, byteArray, canRead, canWrite, canOwn); + } + if (onload) onload(); + removeRunDependency('cp ' + fullname); + } + var handled = false; + Module['preloadPlugins'].forEach(function(plugin) { + if (handled) return; + if (plugin['canHandle'](fullname)) { + plugin['handle'](byteArray, fullname, finish, function() { + if (onerror) onerror(); + removeRunDependency('cp ' + fullname); + }); + handled = true; + } + }); + if (!handled) finish(byteArray); + } + addRunDependency('cp ' + fullname); + if (typeof url == 'string') { + Browser.asyncLoad(url, function(byteArray) { + processData(byteArray); + }, onerror); + } else { + processData(url); + } + },indexedDB:function () { + return window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB; + },DB_NAME:function () { + return 'EM_FS_' + window.location.pathname; + },DB_VERSION:20,DB_STORE_NAME:"FILE_DATA",saveFilesToDB:function (paths, onload, onerror) { + onload = onload || function(){}; + onerror = onerror || function(){}; + var indexedDB = FS.indexedDB(); + try { + var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION); + } catch (e) { + return onerror(e); + } + openRequest.onupgradeneeded = function openRequest_onupgradeneeded() { + console.log('creating db'); + var db = openRequest.result; + db.createObjectStore(FS.DB_STORE_NAME); + }; + openRequest.onsuccess = function openRequest_onsuccess() { + var db = openRequest.result; + var transaction = db.transaction([FS.DB_STORE_NAME], 'readwrite'); + var files = transaction.objectStore(FS.DB_STORE_NAME); + var ok = 0, fail = 0, total = paths.length; + function finish() { + if (fail == 0) onload(); else onerror(); + } + paths.forEach(function(path) { + var putRequest = files.put(FS.analyzePath(path).object.contents, path); + putRequest.onsuccess = function putRequest_onsuccess() { ok++; if (ok + fail == total) finish() }; + putRequest.onerror = function putRequest_onerror() { fail++; if (ok + fail == total) finish() }; + }); + transaction.onerror = onerror; + }; + openRequest.onerror = onerror; + },loadFilesFromDB:function (paths, onload, onerror) { + onload = onload || function(){}; + onerror = onerror || function(){}; + var indexedDB = FS.indexedDB(); + try { + var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION); + } catch (e) { + return onerror(e); + } + openRequest.onupgradeneeded = onerror; // no database to load from + openRequest.onsuccess = function openRequest_onsuccess() { + var db = openRequest.result; + try { + var transaction = db.transaction([FS.DB_STORE_NAME], 'readonly'); + } catch(e) { + onerror(e); + return; + } + var files = transaction.objectStore(FS.DB_STORE_NAME); + var ok = 0, fail = 0, total = paths.length; + function finish() { + if (fail == 0) onload(); else onerror(); + } + paths.forEach(function(path) { + var getRequest = files.get(path); + getRequest.onsuccess = function getRequest_onsuccess() { + if (FS.analyzePath(path).exists) { + FS.unlink(path); + } + FS.createDataFile(PATH.dirname(path), PATH.basename(path), getRequest.result, true, true, true); + ok++; + if (ok + fail == total) finish(); + }; + getRequest.onerror = function getRequest_onerror() { fail++; if (ok + fail == total) finish() }; + }); + transaction.onerror = onerror; + }; + openRequest.onerror = onerror; + }};var PATH={splitPath:function (filename) { + var splitPathRe = /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/; + return splitPathRe.exec(filename).slice(1); + },normalizeArray:function (parts, allowAboveRoot) { + // if the path tries to go above the root, `up` ends up > 0 + var up = 0; + for (var i = parts.length - 1; i >= 0; i--) { + var last = parts[i]; + if (last === '.') { + parts.splice(i, 1); + } else if (last === '..') { + parts.splice(i, 1); + up++; + } else if (up) { + parts.splice(i, 1); + up--; + } + } + // if the path is allowed to go above the root, restore leading ..s + if (allowAboveRoot) { + for (; up--; up) { + parts.unshift('..'); + } + } + return parts; + },normalize:function (path) { + var isAbsolute = path.charAt(0) === '/', + trailingSlash = path.substr(-1) === '/'; + // Normalize the path + path = PATH.normalizeArray(path.split('/').filter(function(p) { + return !!p; + }), !isAbsolute).join('/'); + if (!path && !isAbsolute) { + path = '.'; + } + if (path && trailingSlash) { + path += '/'; + } + return (isAbsolute ? '/' : '') + path; + },dirname:function (path) { + var result = PATH.splitPath(path), + root = result[0], + dir = result[1]; + if (!root && !dir) { + // No dirname whatsoever + return '.'; + } + if (dir) { + // It has a dirname, strip trailing slash + dir = dir.substr(0, dir.length - 1); + } + return root + dir; + },basename:function (path) { + // EMSCRIPTEN return '/'' for '/', not an empty string + if (path === '/') return '/'; + var lastSlash = path.lastIndexOf('/'); + if (lastSlash === -1) return path; + return path.substr(lastSlash+1); + },extname:function (path) { + return PATH.splitPath(path)[3]; + },join:function () { + var paths = Array.prototype.slice.call(arguments, 0); + return PATH.normalize(paths.join('/')); + },join2:function (l, r) { + return PATH.normalize(l + '/' + r); + },resolve:function () { + var resolvedPath = '', + resolvedAbsolute = false; + for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) { + var path = (i >= 0) ? arguments[i] : FS.cwd(); + // Skip empty and invalid entries + if (typeof path !== 'string') { + throw new TypeError('Arguments to path.resolve must be strings'); + } else if (!path) { + return ''; // an invalid portion invalidates the whole thing + } + resolvedPath = path + '/' + resolvedPath; + resolvedAbsolute = path.charAt(0) === '/'; + } + // At this point the path should be resolved to a full absolute path, but + // handle relative paths to be safe (might happen when process.cwd() fails) + resolvedPath = PATH.normalizeArray(resolvedPath.split('/').filter(function(p) { + return !!p; + }), !resolvedAbsolute).join('/'); + return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.'; + },relative:function (from, to) { + from = PATH.resolve(from).substr(1); + to = PATH.resolve(to).substr(1); + function trim(arr) { + var start = 0; + for (; start < arr.length; start++) { + if (arr[start] !== '') break; + } + var end = arr.length - 1; + for (; end >= 0; end--) { + if (arr[end] !== '') break; + } + if (start > end) return []; + return arr.slice(start, end - start + 1); + } + var fromParts = trim(from.split('/')); + var toParts = trim(to.split('/')); + var length = Math.min(fromParts.length, toParts.length); + var samePartsLength = length; + for (var i = 0; i < length; i++) { + if (fromParts[i] !== toParts[i]) { + samePartsLength = i; + break; + } + } + var outputParts = []; + for (var i = samePartsLength; i < fromParts.length; i++) { + outputParts.push('..'); + } + outputParts = outputParts.concat(toParts.slice(samePartsLength)); + return outputParts.join('/'); + }}; + + + function _emscripten_set_main_loop_timing(mode, value) { + Browser.mainLoop.timingMode = mode; + Browser.mainLoop.timingValue = value; + + if (!Browser.mainLoop.func) { + return 1; // Return non-zero on failure, can't set timing mode when there is no main loop. + } + + if (mode == 0 /*EM_TIMING_SETTIMEOUT*/) { + Browser.mainLoop.scheduler = function Browser_mainLoop_scheduler() { + setTimeout(Browser.mainLoop.runner, value); // doing this each time means that on exception, we stop + }; + Browser.mainLoop.method = 'timeout'; + } else if (mode == 1 /*EM_TIMING_RAF*/) { + Browser.mainLoop.scheduler = function Browser_mainLoop_scheduler() { + Browser.requestAnimationFrame(Browser.mainLoop.runner); + }; + Browser.mainLoop.method = 'rAF'; + } + return 0; + }function _emscripten_set_main_loop(func, fps, simulateInfiniteLoop, arg) { + Module['noExitRuntime'] = true; + + assert(!Browser.mainLoop.func, 'emscripten_set_main_loop: there can only be one main loop function at once: call emscripten_cancel_main_loop to cancel the previous one before setting a new one with different parameters.'); + + Browser.mainLoop.func = func; + Browser.mainLoop.arg = arg; + + var thisMainLoopId = Browser.mainLoop.currentlyRunningMainloop; + + Browser.mainLoop.runner = function Browser_mainLoop_runner() { + if (ABORT) return; + if (Browser.mainLoop.queue.length > 0) { + var start = Date.now(); + var blocker = Browser.mainLoop.queue.shift(); + blocker.func(blocker.arg); + if (Browser.mainLoop.remainingBlockers) { + var remaining = Browser.mainLoop.remainingBlockers; + var next = remaining%1 == 0 ? remaining-1 : Math.floor(remaining); + if (blocker.counted) { + Browser.mainLoop.remainingBlockers = next; + } else { + // not counted, but move the progress along a tiny bit + next = next + 0.5; // do not steal all the next one's progress + Browser.mainLoop.remainingBlockers = (8*remaining + next)/9; + } + } + console.log('main loop blocker "' + blocker.name + '" took ' + (Date.now() - start) + ' ms'); //, left: ' + Browser.mainLoop.remainingBlockers); + Browser.mainLoop.updateStatus(); + setTimeout(Browser.mainLoop.runner, 0); + return; + } + + // catch pauses from non-main loop sources + if (thisMainLoopId < Browser.mainLoop.currentlyRunningMainloop) return; + + // Implement very basic swap interval control + Browser.mainLoop.currentFrameNumber = Browser.mainLoop.currentFrameNumber + 1 | 0; + if (Browser.mainLoop.timingMode == 1/*EM_TIMING_RAF*/ && Browser.mainLoop.timingValue > 1 && Browser.mainLoop.currentFrameNumber % Browser.mainLoop.timingValue != 0) { + // Not the scheduled time to render this frame - skip. + Browser.mainLoop.scheduler(); + return; + } + + // Signal GL rendering layer that processing of a new frame is about to start. This helps it optimize + // VBO double-buffering and reduce GPU stalls. + + if (Browser.mainLoop.method === 'timeout' && Module.ctx) { + Module.printErr('Looks like you are rendering without using requestAnimationFrame for the main loop. You should use 0 for the frame rate in emscripten_set_main_loop in order to use requestAnimationFrame, as that can greatly improve your frame rates!'); + Browser.mainLoop.method = ''; // just warn once per call to set main loop + } + + Browser.mainLoop.runIter(function() { + if (typeof arg !== 'undefined') { + Runtime.dynCall('vi', func, [arg]); + } else { + Runtime.dynCall('v', func); + } + }); + + // catch pauses from the main loop itself + if (thisMainLoopId < Browser.mainLoop.currentlyRunningMainloop) return; + + // Queue new audio data. This is important to be right after the main loop invocation, so that we will immediately be able + // to queue the newest produced audio samples. + // TODO: Consider adding pre- and post- rAF callbacks so that GL.newRenderingFrameStarted() and SDL.audio.queueNewAudioData() + // do not need to be hardcoded into this function, but can be more generic. + if (typeof SDL === 'object' && SDL.audio && SDL.audio.queueNewAudioData) SDL.audio.queueNewAudioData(); + + Browser.mainLoop.scheduler(); + } + + if (fps && fps > 0) _emscripten_set_main_loop_timing(0/*EM_TIMING_SETTIMEOUT*/, 1000.0 / fps); + else _emscripten_set_main_loop_timing(1/*EM_TIMING_RAF*/, 1); // Do rAF by rendering each frame (no decimating) + + Browser.mainLoop.scheduler(); + + if (simulateInfiniteLoop) { + throw 'SimulateInfiniteLoop'; + } + }var Browser={mainLoop:{scheduler:null,method:"",currentlyRunningMainloop:0,func:null,arg:0,timingMode:0,timingValue:0,currentFrameNumber:0,queue:[],pause:function () { + Browser.mainLoop.scheduler = null; + Browser.mainLoop.currentlyRunningMainloop++; // Incrementing this signals the previous main loop that it's now become old, and it must return. + },resume:function () { + Browser.mainLoop.currentlyRunningMainloop++; + var timingMode = Browser.mainLoop.timingMode; + var timingValue = Browser.mainLoop.timingValue; + var func = Browser.mainLoop.func; + Browser.mainLoop.func = null; + _emscripten_set_main_loop(func, 0, false, Browser.mainLoop.arg); + _emscripten_set_main_loop_timing(timingMode, timingValue); + },updateStatus:function () { + if (Module['setStatus']) { + var message = Module['statusMessage'] || 'Please wait...'; + var remaining = Browser.mainLoop.remainingBlockers; + var expected = Browser.mainLoop.expectedBlockers; + if (remaining) { + if (remaining < expected) { + Module['setStatus'](message + ' (' + (expected - remaining) + '/' + expected + ')'); + } else { + Module['setStatus'](message); + } + } else { + Module['setStatus'](''); + } + } + },runIter:function (func) { + if (ABORT) return; + if (Module['preMainLoop']) { + var preRet = Module['preMainLoop'](); + if (preRet === false) { + return; // |return false| skips a frame + } + } + try { + func(); + } catch (e) { + if (e instanceof ExitStatus) { + return; + } else { + if (e && typeof e === 'object' && e.stack) Module.printErr('exception thrown: ' + [e, e.stack]); + throw e; + } + } + if (Module['postMainLoop']) Module['postMainLoop'](); + }},isFullScreen:false,pointerLock:false,moduleContextCreatedCallbacks:[],workers:[],init:function () { + if (!Module["preloadPlugins"]) Module["preloadPlugins"] = []; // needs to exist even in workers + + if (Browser.initted) return; + Browser.initted = true; + + try { + new Blob(); + Browser.hasBlobConstructor = true; + } catch(e) { + Browser.hasBlobConstructor = false; + console.log("warning: no blob constructor, cannot create blobs with mimetypes"); + } + Browser.BlobBuilder = typeof MozBlobBuilder != "undefined" ? MozBlobBuilder : (typeof WebKitBlobBuilder != "undefined" ? WebKitBlobBuilder : (!Browser.hasBlobConstructor ? console.log("warning: no BlobBuilder") : null)); + Browser.URLObject = typeof window != "undefined" ? (window.URL ? window.URL : window.webkitURL) : undefined; + if (!Module.noImageDecoding && typeof Browser.URLObject === 'undefined') { + console.log("warning: Browser does not support creating object URLs. Built-in browser image decoding will not be available."); + Module.noImageDecoding = true; + } + + // Support for plugins that can process preloaded files. You can add more of these to + // your app by creating and appending to Module.preloadPlugins. + // + // Each plugin is asked if it can handle a file based on the file's name. If it can, + // it is given the file's raw data. When it is done, it calls a callback with the file's + // (possibly modified) data. For example, a plugin might decompress a file, or it + // might create some side data structure for use later (like an Image element, etc.). + + var imagePlugin = {}; + imagePlugin['canHandle'] = function imagePlugin_canHandle(name) { + return !Module.noImageDecoding && /\.(jpg|jpeg|png|bmp)$/i.test(name); + }; + imagePlugin['handle'] = function imagePlugin_handle(byteArray, name, onload, onerror) { + var b = null; + if (Browser.hasBlobConstructor) { + try { + b = new Blob([byteArray], { type: Browser.getMimetype(name) }); + if (b.size !== byteArray.length) { // Safari bug #118630 + // Safari's Blob can only take an ArrayBuffer + b = new Blob([(new Uint8Array(byteArray)).buffer], { type: Browser.getMimetype(name) }); + } + } catch(e) { + Runtime.warnOnce('Blob constructor present but fails: ' + e + '; falling back to blob builder'); + } + } + if (!b) { + var bb = new Browser.BlobBuilder(); + bb.append((new Uint8Array(byteArray)).buffer); // we need to pass a buffer, and must copy the array to get the right data range + b = bb.getBlob(); + } + var url = Browser.URLObject.createObjectURL(b); + var img = new Image(); + img.onload = function img_onload() { + assert(img.complete, 'Image ' + name + ' could not be decoded'); + var canvas = document.createElement('canvas'); + canvas.width = img.width; + canvas.height = img.height; + var ctx = canvas.getContext('2d'); + ctx.drawImage(img, 0, 0); + Module["preloadedImages"][name] = canvas; + Browser.URLObject.revokeObjectURL(url); + if (onload) onload(byteArray); + }; + img.onerror = function img_onerror(event) { + console.log('Image ' + url + ' could not be decoded'); + if (onerror) onerror(); + }; + img.src = url; + }; + Module['preloadPlugins'].push(imagePlugin); + + var audioPlugin = {}; + audioPlugin['canHandle'] = function audioPlugin_canHandle(name) { + return !Module.noAudioDecoding && name.substr(-4) in { '.ogg': 1, '.wav': 1, '.mp3': 1 }; + }; + audioPlugin['handle'] = function audioPlugin_handle(byteArray, name, onload, onerror) { + var done = false; + function finish(audio) { + if (done) return; + done = true; + Module["preloadedAudios"][name] = audio; + if (onload) onload(byteArray); + } + function fail() { + if (done) return; + done = true; + Module["preloadedAudios"][name] = new Audio(); // empty shim + if (onerror) onerror(); + } + if (Browser.hasBlobConstructor) { + try { + var b = new Blob([byteArray], { type: Browser.getMimetype(name) }); + } catch(e) { + return fail(); + } + var url = Browser.URLObject.createObjectURL(b); // XXX we never revoke this! + var audio = new Audio(); + audio.addEventListener('canplaythrough', function() { finish(audio) }, false); // use addEventListener due to chromium bug 124926 + audio.onerror = function audio_onerror(event) { + if (done) return; + console.log('warning: browser could not fully decode audio ' + name + ', trying slower base64 approach'); + function encode64(data) { + var BASE = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'; + var PAD = '='; + var ret = ''; + var leftchar = 0; + var leftbits = 0; + for (var i = 0; i < data.length; i++) { + leftchar = (leftchar << 8) | data[i]; + leftbits += 8; + while (leftbits >= 6) { + var curr = (leftchar >> (leftbits-6)) & 0x3f; + leftbits -= 6; + ret += BASE[curr]; + } + } + if (leftbits == 2) { + ret += BASE[(leftchar&3) << 4]; + ret += PAD + PAD; + } else if (leftbits == 4) { + ret += BASE[(leftchar&0xf) << 2]; + ret += PAD; + } + return ret; + } + audio.src = 'data:audio/x-' + name.substr(-3) + ';base64,' + encode64(byteArray); + finish(audio); // we don't wait for confirmation this worked - but it's worth trying + }; + audio.src = url; + // workaround for chrome bug 124926 - we do not always get oncanplaythrough or onerror + Browser.safeSetTimeout(function() { + finish(audio); // try to use it even though it is not necessarily ready to play + }, 10000); + } else { + return fail(); + } + }; + Module['preloadPlugins'].push(audioPlugin); + + // Canvas event setup + + var canvas = Module['canvas']; + function pointerLockChange() { + Browser.pointerLock = document['pointerLockElement'] === canvas || + document['mozPointerLockElement'] === canvas || + document['webkitPointerLockElement'] === canvas || + document['msPointerLockElement'] === canvas; + } + if (canvas) { + // forced aspect ratio can be enabled by defining 'forcedAspectRatio' on Module + // Module['forcedAspectRatio'] = 4 / 3; + + canvas.requestPointerLock = canvas['requestPointerLock'] || + canvas['mozRequestPointerLock'] || + canvas['webkitRequestPointerLock'] || + canvas['msRequestPointerLock'] || + function(){}; + canvas.exitPointerLock = document['exitPointerLock'] || + document['mozExitPointerLock'] || + document['webkitExitPointerLock'] || + document['msExitPointerLock'] || + function(){}; // no-op if function does not exist + canvas.exitPointerLock = canvas.exitPointerLock.bind(document); + + + document.addEventListener('pointerlockchange', pointerLockChange, false); + document.addEventListener('mozpointerlockchange', pointerLockChange, false); + document.addEventListener('webkitpointerlockchange', pointerLockChange, false); + document.addEventListener('mspointerlockchange', pointerLockChange, false); + + if (Module['elementPointerLock']) { + canvas.addEventListener("click", function(ev) { + if (!Browser.pointerLock && canvas.requestPointerLock) { + canvas.requestPointerLock(); + ev.preventDefault(); + } + }, false); + } + } + },createContext:function (canvas, useWebGL, setInModule, webGLContextAttributes) { + if (useWebGL && Module.ctx && canvas == Module.canvas) return Module.ctx; // no need to recreate GL context if it's already been created for this canvas. + + var ctx; + var contextHandle; + if (useWebGL) { + // For GLES2/desktop GL compatibility, adjust a few defaults to be different to WebGL defaults, so that they align better with the desktop defaults. + var contextAttributes = { + antialias: false, + alpha: false + }; + + if (webGLContextAttributes) { + for (var attribute in webGLContextAttributes) { + contextAttributes[attribute] = webGLContextAttributes[attribute]; + } + } + + contextHandle = GL.createContext(canvas, contextAttributes); + if (contextHandle) { + ctx = GL.getContext(contextHandle).GLctx; + } + // Set the background of the WebGL canvas to black + canvas.style.backgroundColor = "black"; + } else { + ctx = canvas.getContext('2d'); + } + + if (!ctx) return null; + + if (setInModule) { + if (!useWebGL) assert(typeof GLctx === 'undefined', 'cannot set in module if GLctx is used, but we are a non-GL context that would replace it'); + + Module.ctx = ctx; + if (useWebGL) GL.makeContextCurrent(contextHandle); + Module.useWebGL = useWebGL; + Browser.moduleContextCreatedCallbacks.forEach(function(callback) { callback() }); + Browser.init(); + } + return ctx; + },destroyContext:function (canvas, useWebGL, setInModule) {},fullScreenHandlersInstalled:false,lockPointer:undefined,resizeCanvas:undefined,requestFullScreen:function (lockPointer, resizeCanvas) { + Browser.lockPointer = lockPointer; + Browser.resizeCanvas = resizeCanvas; + if (typeof Browser.lockPointer === 'undefined') Browser.lockPointer = true; + if (typeof Browser.resizeCanvas === 'undefined') Browser.resizeCanvas = false; + + var canvas = Module['canvas']; + function fullScreenChange() { + Browser.isFullScreen = false; + var canvasContainer = canvas.parentNode; + if ((document['webkitFullScreenElement'] || document['webkitFullscreenElement'] || + document['mozFullScreenElement'] || document['mozFullscreenElement'] || + document['fullScreenElement'] || document['fullscreenElement'] || + document['msFullScreenElement'] || document['msFullscreenElement'] || + document['webkitCurrentFullScreenElement']) === canvasContainer) { + canvas.cancelFullScreen = document['cancelFullScreen'] || + document['mozCancelFullScreen'] || + document['webkitCancelFullScreen'] || + document['msExitFullscreen'] || + document['exitFullscreen'] || + function() {}; + canvas.cancelFullScreen = canvas.cancelFullScreen.bind(document); + if (Browser.lockPointer) canvas.requestPointerLock(); + Browser.isFullScreen = true; + if (Browser.resizeCanvas) Browser.setFullScreenCanvasSize(); + } else { + + // remove the full screen specific parent of the canvas again to restore the HTML structure from before going full screen + canvasContainer.parentNode.insertBefore(canvas, canvasContainer); + canvasContainer.parentNode.removeChild(canvasContainer); + + if (Browser.resizeCanvas) Browser.setWindowedCanvasSize(); + } + if (Module['onFullScreen']) Module['onFullScreen'](Browser.isFullScreen); + Browser.updateCanvasDimensions(canvas); + } + + if (!Browser.fullScreenHandlersInstalled) { + Browser.fullScreenHandlersInstalled = true; + document.addEventListener('fullscreenchange', fullScreenChange, false); + document.addEventListener('mozfullscreenchange', fullScreenChange, false); + document.addEventListener('webkitfullscreenchange', fullScreenChange, false); + document.addEventListener('MSFullscreenChange', fullScreenChange, false); + } + + // create a new parent to ensure the canvas has no siblings. this allows browsers to optimize full screen performance when its parent is the full screen root + var canvasContainer = document.createElement("div"); + canvas.parentNode.insertBefore(canvasContainer, canvas); + canvasContainer.appendChild(canvas); + + // use parent of canvas as full screen root to allow aspect ratio correction (Firefox stretches the root to screen size) + canvasContainer.requestFullScreen = canvasContainer['requestFullScreen'] || + canvasContainer['mozRequestFullScreen'] || + canvasContainer['msRequestFullscreen'] || + (canvasContainer['webkitRequestFullScreen'] ? function() { canvasContainer['webkitRequestFullScreen'](Element['ALLOW_KEYBOARD_INPUT']) } : null); + canvasContainer.requestFullScreen(); + },nextRAF:0,fakeRequestAnimationFrame:function (func) { + // try to keep 60fps between calls to here + var now = Date.now(); + if (Browser.nextRAF === 0) { + Browser.nextRAF = now + 1000/60; + } else { + while (now + 2 >= Browser.nextRAF) { // fudge a little, to avoid timer jitter causing us to do lots of delay:0 + Browser.nextRAF += 1000/60; + } + } + var delay = Math.max(Browser.nextRAF - now, 0); + setTimeout(func, delay); + },requestAnimationFrame:function requestAnimationFrame(func) { + if (typeof window === 'undefined') { // Provide fallback to setTimeout if window is undefined (e.g. in Node.js) + Browser.fakeRequestAnimationFrame(func); + } else { + if (!window.requestAnimationFrame) { + window.requestAnimationFrame = window['requestAnimationFrame'] || + window['mozRequestAnimationFrame'] || + window['webkitRequestAnimationFrame'] || + window['msRequestAnimationFrame'] || + window['oRequestAnimationFrame'] || + Browser.fakeRequestAnimationFrame; + } + window.requestAnimationFrame(func); + } + },safeCallback:function (func) { + return function() { + if (!ABORT) return func.apply(null, arguments); + }; + },safeRequestAnimationFrame:function (func) { + return Browser.requestAnimationFrame(function() { + if (!ABORT) func(); + }); + },safeSetTimeout:function (func, timeout) { + Module['noExitRuntime'] = true; + return setTimeout(function() { + if (!ABORT) func(); + }, timeout); + },safeSetInterval:function (func, timeout) { + Module['noExitRuntime'] = true; + return setInterval(function() { + if (!ABORT) func(); + }, timeout); + },getMimetype:function (name) { + return { + 'jpg': 'image/jpeg', + 'jpeg': 'image/jpeg', + 'png': 'image/png', + 'bmp': 'image/bmp', + 'ogg': 'audio/ogg', + 'wav': 'audio/wav', + 'mp3': 'audio/mpeg' + }[name.substr(name.lastIndexOf('.')+1)]; + },getUserMedia:function (func) { + if(!window.getUserMedia) { + window.getUserMedia = navigator['getUserMedia'] || + navigator['mozGetUserMedia']; + } + window.getUserMedia(func); + },getMovementX:function (event) { + return event['movementX'] || + event['mozMovementX'] || + event['webkitMovementX'] || + 0; + },getMovementY:function (event) { + return event['movementY'] || + event['mozMovementY'] || + event['webkitMovementY'] || + 0; + },getMouseWheelDelta:function (event) { + var delta = 0; + switch (event.type) { + case 'DOMMouseScroll': + delta = event.detail; + break; + case 'mousewheel': + delta = event.wheelDelta; + break; + case 'wheel': + delta = event['deltaY']; + break; + default: + throw 'unrecognized mouse wheel event: ' + event.type; + } + return delta; + },mouseX:0,mouseY:0,mouseMovementX:0,mouseMovementY:0,touches:{},lastTouches:{},calculateMouseEvent:function (event) { // event should be mousemove, mousedown or mouseup + if (Browser.pointerLock) { + // When the pointer is locked, calculate the coordinates + // based on the movement of the mouse. + // Workaround for Firefox bug 764498 + if (event.type != 'mousemove' && + ('mozMovementX' in event)) { + Browser.mouseMovementX = Browser.mouseMovementY = 0; + } else { + Browser.mouseMovementX = Browser.getMovementX(event); + Browser.mouseMovementY = Browser.getMovementY(event); + } + + // check if SDL is available + if (typeof SDL != "undefined") { + Browser.mouseX = SDL.mouseX + Browser.mouseMovementX; + Browser.mouseY = SDL.mouseY + Browser.mouseMovementY; + } else { + // just add the mouse delta to the current absolut mouse position + // FIXME: ideally this should be clamped against the canvas size and zero + Browser.mouseX += Browser.mouseMovementX; + Browser.mouseY += Browser.mouseMovementY; + } + } else { + // Otherwise, calculate the movement based on the changes + // in the coordinates. + var rect = Module["canvas"].getBoundingClientRect(); + var cw = Module["canvas"].width; + var ch = Module["canvas"].height; + + // Neither .scrollX or .pageXOffset are defined in a spec, but + // we prefer .scrollX because it is currently in a spec draft. + // (see: http://www.w3.org/TR/2013/WD-cssom-view-20131217/) + var scrollX = ((typeof window.scrollX !== 'undefined') ? window.scrollX : window.pageXOffset); + var scrollY = ((typeof window.scrollY !== 'undefined') ? window.scrollY : window.pageYOffset); + + if (event.type === 'touchstart' || event.type === 'touchend' || event.type === 'touchmove') { + var touch = event.touch; + if (touch === undefined) { + return; // the "touch" property is only defined in SDL + + } + var adjustedX = touch.pageX - (scrollX + rect.left); + var adjustedY = touch.pageY - (scrollY + rect.top); + + adjustedX = adjustedX * (cw / rect.width); + adjustedY = adjustedY * (ch / rect.height); + + var coords = { x: adjustedX, y: adjustedY }; + + if (event.type === 'touchstart') { + Browser.lastTouches[touch.identifier] = coords; + Browser.touches[touch.identifier] = coords; + } else if (event.type === 'touchend' || event.type === 'touchmove') { + Browser.lastTouches[touch.identifier] = Browser.touches[touch.identifier]; + Browser.touches[touch.identifier] = { x: adjustedX, y: adjustedY }; + } + return; + } + + var x = event.pageX - (scrollX + rect.left); + var y = event.pageY - (scrollY + rect.top); + + // the canvas might be CSS-scaled compared to its backbuffer; + // SDL-using content will want mouse coordinates in terms + // of backbuffer units. + x = x * (cw / rect.width); + y = y * (ch / rect.height); + + Browser.mouseMovementX = x - Browser.mouseX; + Browser.mouseMovementY = y - Browser.mouseY; + Browser.mouseX = x; + Browser.mouseY = y; + } + },xhrLoad:function (url, onload, onerror) { + var xhr = new XMLHttpRequest(); + xhr.open('GET', url, true); + xhr.responseType = 'arraybuffer'; + xhr.onload = function xhr_onload() { + if (xhr.status == 200 || (xhr.status == 0 && xhr.response)) { // file URLs can return 0 + onload(xhr.response); + } else { + onerror(); + } + }; + xhr.onerror = onerror; + xhr.send(null); + },asyncLoad:function (url, onload, onerror, noRunDep) { + Browser.xhrLoad(url, function(arrayBuffer) { + assert(arrayBuffer, 'Loading data file "' + url + '" failed (no arrayBuffer).'); + onload(new Uint8Array(arrayBuffer)); + if (!noRunDep) removeRunDependency('al ' + url); + }, function(event) { + if (onerror) { + onerror(); + } else { + throw 'Loading data file "' + url + '" failed.'; + } + }); + if (!noRunDep) addRunDependency('al ' + url); + },resizeListeners:[],updateResizeListeners:function () { + var canvas = Module['canvas']; + Browser.resizeListeners.forEach(function(listener) { + listener(canvas.width, canvas.height); + }); + },setCanvasSize:function (width, height, noUpdates) { + var canvas = Module['canvas']; + Browser.updateCanvasDimensions(canvas, width, height); + if (!noUpdates) Browser.updateResizeListeners(); + },windowedWidth:0,windowedHeight:0,setFullScreenCanvasSize:function () { + // check if SDL is available + if (typeof SDL != "undefined") { + var flags = HEAPU32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)]; + flags = flags | 0x00800000; // set SDL_FULLSCREEN flag + HEAP32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)]=flags + } + Browser.updateResizeListeners(); + },setWindowedCanvasSize:function () { + // check if SDL is available + if (typeof SDL != "undefined") { + var flags = HEAPU32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)]; + flags = flags & ~0x00800000; // clear SDL_FULLSCREEN flag + HEAP32[((SDL.screen+Runtime.QUANTUM_SIZE*0)>>2)]=flags + } + Browser.updateResizeListeners(); + },updateCanvasDimensions:function (canvas, wNative, hNative) { + if (wNative && hNative) { + canvas.widthNative = wNative; + canvas.heightNative = hNative; + } else { + wNative = canvas.widthNative; + hNative = canvas.heightNative; + } + var w = wNative; + var h = hNative; + if (Module['forcedAspectRatio'] && Module['forcedAspectRatio'] > 0) { + if (w/h < Module['forcedAspectRatio']) { + w = Math.round(h * Module['forcedAspectRatio']); + } else { + h = Math.round(w / Module['forcedAspectRatio']); + } + } + if (((document['webkitFullScreenElement'] || document['webkitFullscreenElement'] || + document['mozFullScreenElement'] || document['mozFullscreenElement'] || + document['fullScreenElement'] || document['fullscreenElement'] || + document['msFullScreenElement'] || document['msFullscreenElement'] || + document['webkitCurrentFullScreenElement']) === canvas.parentNode) && (typeof screen != 'undefined')) { + var factor = Math.min(screen.width / w, screen.height / h); + w = Math.round(w * factor); + h = Math.round(h * factor); + } + if (Browser.resizeCanvas) { + if (canvas.width != w) canvas.width = w; + if (canvas.height != h) canvas.height = h; + if (typeof canvas.style != 'undefined') { + canvas.style.removeProperty( "width"); + canvas.style.removeProperty("height"); + } + } else { + if (canvas.width != wNative) canvas.width = wNative; + if (canvas.height != hNative) canvas.height = hNative; + if (typeof canvas.style != 'undefined') { + if (w != wNative || h != hNative) { + canvas.style.setProperty( "width", w + "px", "important"); + canvas.style.setProperty("height", h + "px", "important"); + } else { + canvas.style.removeProperty( "width"); + canvas.style.removeProperty("height"); + } + } + } + },wgetRequests:{},nextWgetRequestHandle:0,getNextWgetRequestHandle:function () { + var handle = Browser.nextWgetRequestHandle; + Browser.nextWgetRequestHandle++; + return handle; + }}; + + function _time(ptr) { + var ret = (Date.now()/1000)|0; + if (ptr) { + HEAP32[((ptr)>>2)]=ret; + } + return ret; + } +___errno_state = Runtime.staticAlloc(4); HEAP32[((___errno_state)>>2)]=0; +Module["requestFullScreen"] = function Module_requestFullScreen(lockPointer, resizeCanvas) { Browser.requestFullScreen(lockPointer, resizeCanvas) }; + Module["requestAnimationFrame"] = function Module_requestAnimationFrame(func) { Browser.requestAnimationFrame(func) }; + Module["setCanvasSize"] = function Module_setCanvasSize(width, height, noUpdates) { Browser.setCanvasSize(width, height, noUpdates) }; + Module["pauseMainLoop"] = function Module_pauseMainLoop() { Browser.mainLoop.pause() }; + Module["resumeMainLoop"] = function Module_resumeMainLoop() { Browser.mainLoop.resume() }; + Module["getUserMedia"] = function Module_getUserMedia() { Browser.getUserMedia() } +FS.staticInit();__ATINIT__.unshift({ func: function() { if (!Module["noFSInit"] && !FS.init.initialized) FS.init() } });__ATMAIN__.push({ func: function() { FS.ignorePermissions = false } });__ATEXIT__.push({ func: function() { FS.quit() } });Module["FS_createFolder"] = FS.createFolder;Module["FS_createPath"] = FS.createPath;Module["FS_createDataFile"] = FS.createDataFile;Module["FS_createPreloadedFile"] = FS.createPreloadedFile;Module["FS_createLazyFile"] = FS.createLazyFile;Module["FS_createLink"] = FS.createLink;Module["FS_createDevice"] = FS.createDevice; +__ATINIT__.unshift({ func: function() { TTY.init() } });__ATEXIT__.push({ func: function() { TTY.shutdown() } });TTY.utf8 = new Runtime.UTF8Processor(); +if (ENVIRONMENT_IS_NODE) { var fs = require("fs"); NODEFS.staticInit(); } +STACK_BASE = STACKTOP = Runtime.alignMemory(STATICTOP); + +staticSealed = true; // seal the static portion of memory + +STACK_MAX = STACK_BASE + TOTAL_STACK; + +DYNAMIC_BASE = DYNAMICTOP = Runtime.alignMemory(STACK_MAX); + +assert(DYNAMIC_BASE < TOTAL_MEMORY, "TOTAL_MEMORY not big enough for stack"); + + var ctlz_i8 = allocate([8,7,6,6,5,5,5,5,4,4,4,4,4,4,4,4,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0], "i8", ALLOC_DYNAMIC); + var cttz_i8 = allocate([8,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,6,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,7,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,6,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,5,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2,0,1,0,3,0,1,0,2,0,1,0], "i8", ALLOC_DYNAMIC); + + +Module.asmGlobalArg = { "Math": Math, "Int8Array": Int8Array, "Int16Array": Int16Array, "Int32Array": Int32Array, "Uint8Array": Uint8Array, "Uint16Array": Uint16Array, "Uint32Array": Uint32Array, "Float32Array": Float32Array, "Float64Array": Float64Array }; +Module.asmLibraryArg = { "abort": abort, "assert": assert, "min": Math_min, "_fflush": _fflush, "_sysconf": _sysconf, "_abort": _abort, "___setErrNo": ___setErrNo, "_sbrk": _sbrk, "_time": _time, "_emscripten_set_main_loop_timing": _emscripten_set_main_loop_timing, "_emscripten_memcpy_big": _emscripten_memcpy_big, "_emscripten_set_main_loop": _emscripten_set_main_loop, "___errno_location": ___errno_location, "STACKTOP": STACKTOP, "STACK_MAX": STACK_MAX, "tempDoublePtr": tempDoublePtr, "ABORT": ABORT, "cttz_i8": cttz_i8, "ctlz_i8": ctlz_i8, "NaN": NaN, "Infinity": Infinity }; +// EMSCRIPTEN_START_ASM +var asm = (function(global, env, buffer) { + 'use asm'; + + var HEAP8 = new global.Int8Array(buffer); + var HEAP16 = new global.Int16Array(buffer); + var HEAP32 = new global.Int32Array(buffer); + var HEAPU8 = new global.Uint8Array(buffer); + var HEAPU16 = new global.Uint16Array(buffer); + var HEAPU32 = new global.Uint32Array(buffer); + var HEAPF32 = new global.Float32Array(buffer); + var HEAPF64 = new global.Float64Array(buffer); + + + var STACKTOP=env.STACKTOP|0; + var STACK_MAX=env.STACK_MAX|0; + var tempDoublePtr=env.tempDoublePtr|0; + var ABORT=env.ABORT|0; + var cttz_i8=env.cttz_i8|0; + var ctlz_i8=env.ctlz_i8|0; + + var __THREW__ = 0; + var threwValue = 0; + var setjmpId = 0; + var undef = 0; + var nan = +env.NaN, inf = +env.Infinity; + var tempInt = 0, tempBigInt = 0, tempBigIntP = 0, tempBigIntS = 0, tempBigIntR = 0.0, tempBigIntI = 0, tempBigIntD = 0, tempValue = 0, tempDouble = 0.0; + + var tempRet0 = 0; + var tempRet1 = 0; + var tempRet2 = 0; + var tempRet3 = 0; + var tempRet4 = 0; + var tempRet5 = 0; + var tempRet6 = 0; + var tempRet7 = 0; + var tempRet8 = 0; + var tempRet9 = 0; + var Math_floor=global.Math.floor; + var Math_abs=global.Math.abs; + var Math_sqrt=global.Math.sqrt; + var Math_pow=global.Math.pow; + var Math_cos=global.Math.cos; + var Math_sin=global.Math.sin; + var Math_tan=global.Math.tan; + var Math_acos=global.Math.acos; + var Math_asin=global.Math.asin; + var Math_atan=global.Math.atan; + var Math_atan2=global.Math.atan2; + var Math_exp=global.Math.exp; + var Math_log=global.Math.log; + var Math_ceil=global.Math.ceil; + var Math_imul=global.Math.imul; + var abort=env.abort; + var assert=env.assert; + var Math_min=env.min; + var _fflush=env._fflush; + var _sysconf=env._sysconf; + var _abort=env._abort; + var ___setErrNo=env.___setErrNo; + var _sbrk=env._sbrk; + var _time=env._time; + var _emscripten_set_main_loop_timing=env._emscripten_set_main_loop_timing; + var _emscripten_memcpy_big=env._emscripten_memcpy_big; + var _emscripten_set_main_loop=env._emscripten_set_main_loop; + var ___errno_location=env.___errno_location; + var tempFloat = 0.0; + +// EMSCRIPTEN_START_FUNCS +function stackAlloc(size) { + size = size|0; + var ret = 0; + ret = STACKTOP; + STACKTOP = (STACKTOP + size)|0; +STACKTOP = (STACKTOP + 15)&-16; + + return ret|0; +} +function stackSave() { + return STACKTOP|0; +} +function stackRestore(top) { + top = top|0; + STACKTOP = top; +} + +function setThrew(threw, value) { + threw = threw|0; + value = value|0; + if ((__THREW__|0) == 0) { + __THREW__ = threw; + threwValue = value; + } +} +function copyTempFloat(ptr) { + ptr = ptr|0; + HEAP8[tempDoublePtr>>0] = HEAP8[ptr>>0]; + HEAP8[tempDoublePtr+1>>0] = HEAP8[ptr+1>>0]; + HEAP8[tempDoublePtr+2>>0] = HEAP8[ptr+2>>0]; + HEAP8[tempDoublePtr+3>>0] = HEAP8[ptr+3>>0]; +} +function copyTempDouble(ptr) { + ptr = ptr|0; + HEAP8[tempDoublePtr>>0] = HEAP8[ptr>>0]; + HEAP8[tempDoublePtr+1>>0] = HEAP8[ptr+1>>0]; + HEAP8[tempDoublePtr+2>>0] = HEAP8[ptr+2>>0]; + HEAP8[tempDoublePtr+3>>0] = HEAP8[ptr+3>>0]; + HEAP8[tempDoublePtr+4>>0] = HEAP8[ptr+4>>0]; + HEAP8[tempDoublePtr+5>>0] = HEAP8[ptr+5>>0]; + HEAP8[tempDoublePtr+6>>0] = HEAP8[ptr+6>>0]; + HEAP8[tempDoublePtr+7>>0] = HEAP8[ptr+7>>0]; +} +function setTempRet0(value) { + value = value|0; + tempRet0 = value; +} +function getTempRet0() { + return tempRet0|0; +} + +function _crypto_verify_32_ref($x,$y) { + $x = $x|0; + $y = $y|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0; + var $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0; + var $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0; + var $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0; + var $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$x>>0]|0; + $1 = HEAP8[$y>>0]|0; + $2 = $1 ^ $0; + $3 = (($x) + 1|0); + $4 = HEAP8[$3>>0]|0; + $5 = (($y) + 1|0); + $6 = HEAP8[$5>>0]|0; + $7 = $6 ^ $4; + $8 = $7 | $2; + $9 = (($x) + 2|0); + $10 = HEAP8[$9>>0]|0; + $11 = (($y) + 2|0); + $12 = HEAP8[$11>>0]|0; + $13 = $12 ^ $10; + $14 = $8 | $13; + $15 = (($x) + 3|0); + $16 = HEAP8[$15>>0]|0; + $17 = (($y) + 3|0); + $18 = HEAP8[$17>>0]|0; + $19 = $18 ^ $16; + $20 = $14 | $19; + $21 = (($x) + 4|0); + $22 = HEAP8[$21>>0]|0; + $23 = (($y) + 4|0); + $24 = HEAP8[$23>>0]|0; + $25 = $24 ^ $22; + $26 = $20 | $25; + $27 = (($x) + 5|0); + $28 = HEAP8[$27>>0]|0; + $29 = (($y) + 5|0); + $30 = HEAP8[$29>>0]|0; + $31 = $30 ^ $28; + $32 = $26 | $31; + $33 = (($x) + 6|0); + $34 = HEAP8[$33>>0]|0; + $35 = (($y) + 6|0); + $36 = HEAP8[$35>>0]|0; + $37 = $36 ^ $34; + $38 = $32 | $37; + $39 = (($x) + 7|0); + $40 = HEAP8[$39>>0]|0; + $41 = (($y) + 7|0); + $42 = HEAP8[$41>>0]|0; + $43 = $42 ^ $40; + $44 = $38 | $43; + $45 = (($x) + 8|0); + $46 = HEAP8[$45>>0]|0; + $47 = (($y) + 8|0); + $48 = HEAP8[$47>>0]|0; + $49 = $48 ^ $46; + $50 = $44 | $49; + $51 = (($x) + 9|0); + $52 = HEAP8[$51>>0]|0; + $53 = (($y) + 9|0); + $54 = HEAP8[$53>>0]|0; + $55 = $54 ^ $52; + $56 = $50 | $55; + $57 = (($x) + 10|0); + $58 = HEAP8[$57>>0]|0; + $59 = (($y) + 10|0); + $60 = HEAP8[$59>>0]|0; + $61 = $60 ^ $58; + $62 = $56 | $61; + $63 = (($x) + 11|0); + $64 = HEAP8[$63>>0]|0; + $65 = (($y) + 11|0); + $66 = HEAP8[$65>>0]|0; + $67 = $66 ^ $64; + $68 = $62 | $67; + $69 = (($x) + 12|0); + $70 = HEAP8[$69>>0]|0; + $71 = (($y) + 12|0); + $72 = HEAP8[$71>>0]|0; + $73 = $72 ^ $70; + $74 = $68 | $73; + $75 = (($x) + 13|0); + $76 = HEAP8[$75>>0]|0; + $77 = (($y) + 13|0); + $78 = HEAP8[$77>>0]|0; + $79 = $78 ^ $76; + $80 = $74 | $79; + $81 = (($x) + 14|0); + $82 = HEAP8[$81>>0]|0; + $83 = (($y) + 14|0); + $84 = HEAP8[$83>>0]|0; + $85 = $84 ^ $82; + $86 = $80 | $85; + $87 = (($x) + 15|0); + $88 = HEAP8[$87>>0]|0; + $89 = (($y) + 15|0); + $90 = HEAP8[$89>>0]|0; + $91 = $90 ^ $88; + $92 = $86 | $91; + $93 = (($x) + 16|0); + $94 = HEAP8[$93>>0]|0; + $95 = (($y) + 16|0); + $96 = HEAP8[$95>>0]|0; + $97 = $96 ^ $94; + $98 = $92 | $97; + $99 = (($x) + 17|0); + $100 = HEAP8[$99>>0]|0; + $101 = (($y) + 17|0); + $102 = HEAP8[$101>>0]|0; + $103 = $102 ^ $100; + $104 = $98 | $103; + $105 = (($x) + 18|0); + $106 = HEAP8[$105>>0]|0; + $107 = (($y) + 18|0); + $108 = HEAP8[$107>>0]|0; + $109 = $108 ^ $106; + $110 = $104 | $109; + $111 = (($x) + 19|0); + $112 = HEAP8[$111>>0]|0; + $113 = (($y) + 19|0); + $114 = HEAP8[$113>>0]|0; + $115 = $114 ^ $112; + $116 = $110 | $115; + $117 = (($x) + 20|0); + $118 = HEAP8[$117>>0]|0; + $119 = (($y) + 20|0); + $120 = HEAP8[$119>>0]|0; + $121 = $120 ^ $118; + $122 = $116 | $121; + $123 = (($x) + 21|0); + $124 = HEAP8[$123>>0]|0; + $125 = (($y) + 21|0); + $126 = HEAP8[$125>>0]|0; + $127 = $126 ^ $124; + $128 = $122 | $127; + $129 = (($x) + 22|0); + $130 = HEAP8[$129>>0]|0; + $131 = (($y) + 22|0); + $132 = HEAP8[$131>>0]|0; + $133 = $132 ^ $130; + $134 = $128 | $133; + $135 = (($x) + 23|0); + $136 = HEAP8[$135>>0]|0; + $137 = (($y) + 23|0); + $138 = HEAP8[$137>>0]|0; + $139 = $138 ^ $136; + $140 = $134 | $139; + $141 = (($x) + 24|0); + $142 = HEAP8[$141>>0]|0; + $143 = (($y) + 24|0); + $144 = HEAP8[$143>>0]|0; + $145 = $144 ^ $142; + $146 = $140 | $145; + $147 = (($x) + 25|0); + $148 = HEAP8[$147>>0]|0; + $149 = (($y) + 25|0); + $150 = HEAP8[$149>>0]|0; + $151 = $150 ^ $148; + $152 = $146 | $151; + $153 = (($x) + 26|0); + $154 = HEAP8[$153>>0]|0; + $155 = (($y) + 26|0); + $156 = HEAP8[$155>>0]|0; + $157 = $156 ^ $154; + $158 = $152 | $157; + $159 = (($x) + 27|0); + $160 = HEAP8[$159>>0]|0; + $161 = (($y) + 27|0); + $162 = HEAP8[$161>>0]|0; + $163 = $162 ^ $160; + $164 = $158 | $163; + $165 = (($x) + 28|0); + $166 = HEAP8[$165>>0]|0; + $167 = (($y) + 28|0); + $168 = HEAP8[$167>>0]|0; + $169 = $168 ^ $166; + $170 = $164 | $169; + $171 = (($x) + 29|0); + $172 = HEAP8[$171>>0]|0; + $173 = (($y) + 29|0); + $174 = HEAP8[$173>>0]|0; + $175 = $174 ^ $172; + $176 = $170 | $175; + $177 = (($x) + 30|0); + $178 = HEAP8[$177>>0]|0; + $179 = (($y) + 30|0); + $180 = HEAP8[$179>>0]|0; + $181 = $180 ^ $178; + $182 = $176 | $181; + $183 = (($x) + 31|0); + $184 = HEAP8[$183>>0]|0; + $185 = (($y) + 31|0); + $186 = HEAP8[$185>>0]|0; + $187 = $186 ^ $184; + $188 = $182 | $187; + $189 = $188&255; + $190 = (($189) + 511)|0; + $191 = $190 >>> 8; + $192 = $191 & 1; + $193 = (($192) + -1)|0; + STACKTOP = sp;return ($193|0); +} +function _curve25519_sign($signature_out,$curve25519_privkey,$msg,$msg_len) { + $signature_out = $signature_out|0; + $curve25519_privkey = $curve25519_privkey|0; + $msg = $msg|0; + $msg_len = $msg_len|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $ed_keypair = 0, $ed_pubkey_point = 0, $sigbuf_out_len = 0, dest = 0; + var label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 240|0; + $ed_pubkey_point = sp + 8|0; + $ed_keypair = sp + 168|0; + $sigbuf_out_len = sp; + $0 = (($msg_len) + 64)|0; + $1 = STACKTOP; STACKTOP = STACKTOP + ((((1*$0)|0)+15)&-16)|0;; + $2 = $sigbuf_out_len; + $3 = $2; + HEAP32[$3>>2] = 0; + $4 = (($2) + 4)|0; + $5 = $4; + HEAP32[$5>>2] = 0; + dest=$ed_keypair+0|0; src=$curve25519_privkey+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + _crypto_sign_ed25519_ref10_ge_scalarmult_base($ed_pubkey_point,$curve25519_privkey); + $6 = (($ed_keypair) + 32|0); + _crypto_sign_ed25519_ref10_ge_p3_tobytes($6,$ed_pubkey_point); + $7 = (($ed_keypair) + 63|0); + $8 = HEAP8[$7>>0]|0; + $9 = $8&255; + $10 = $9 & 128; + (_crypto_sign_modified($1,$sigbuf_out_len,$msg,$msg_len,0,$ed_keypair)|0); + dest=$signature_out+0|0; src=$1+0|0; stop=dest+64|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + $11 = (($signature_out) + 63|0); + $12 = HEAP8[$11>>0]|0; + $13 = $12&255; + $14 = $13 | $10; + $15 = $14&255; + HEAP8[$11>>0] = $15; + STACKTOP = sp;return; +} +function _curve25519_verify($signature,$curve25519_pubkey,$msg,$msg_len) { + $signature = $signature|0; + $curve25519_pubkey = $curve25519_pubkey|0; + $msg = $msg|0; + $msg_len = $msg_len|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $ed_pubkey = 0, $ed_y = 0; + var $inv_mont_x_plus_one = 0, $mont_x = 0, $mont_x_minus_one = 0, $mont_x_plus_one = 0, $one = 0, $some_retval = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 288|0; + $mont_x = sp + 208|0; + $mont_x_minus_one = sp + 168|0; + $mont_x_plus_one = sp + 128|0; + $inv_mont_x_plus_one = sp + 88|0; + $one = sp + 48|0; + $ed_y = sp + 8|0; + $ed_pubkey = sp + 248|0; + $some_retval = sp; + $0 = (($msg_len) + 64)|0; + $1 = STACKTOP; STACKTOP = STACKTOP + ((((1*$0)|0)+15)&-16)|0;; + $2 = STACKTOP; STACKTOP = STACKTOP + ((((1*$0)|0)+15)&-16)|0;; + _crypto_sign_ed25519_ref10_fe_frombytes($mont_x,$curve25519_pubkey); + _crypto_sign_ed25519_ref10_fe_1($one); + _crypto_sign_ed25519_ref10_fe_sub($mont_x_minus_one,$mont_x,$one); + _crypto_sign_ed25519_ref10_fe_add($mont_x_plus_one,$mont_x,$one); + _crypto_sign_ed25519_ref10_fe_invert($inv_mont_x_plus_one,$mont_x_plus_one); + _crypto_sign_ed25519_ref10_fe_mul($ed_y,$mont_x_minus_one,$inv_mont_x_plus_one); + _crypto_sign_ed25519_ref10_fe_tobytes($ed_pubkey,$ed_y); + $3 = (($signature) + 63|0); + $4 = HEAP8[$3>>0]|0; + $5 = $4&255; + $6 = $5 & 128; + $7 = (($ed_pubkey) + 31|0); + $8 = HEAP8[$7>>0]|0; + $9 = $8&255; + $10 = $9 | $6; + $11 = $10&255; + HEAP8[$7>>0] = $11; + $12 = HEAP8[$3>>0]|0; + $13 = $12&255; + $14 = $13 & 127; + $15 = $14&255; + HEAP8[$3>>0] = $15; + dest=$1+0|0; src=$signature+0|0; stop=dest+64|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + $16 = (($1) + 64|0); + _memcpy(($16|0),($msg|0),($msg_len|0))|0; + $17 = (_crypto_sign_edwards25519sha512batch_ref10_open($2,$some_retval,$1,$0,0,$ed_pubkey)|0); + STACKTOP = sp;return ($17|0); +} +function _crypto_hash_sha512_ref($output,$input,$0,$1) { + $output = $output|0; + $input = $input|0; + $0 = $0|0; + $1 = $1|0; + var $ctx = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 208|0; + $ctx = sp; + _sph_sha512_init($ctx); + _sph_sha384($ctx,$input,$0); + _sph_sha512_close($ctx,$output); + STACKTOP = sp;return 0; +} +function _crypto_sign_modified($sm,$smlen,$m,$0,$1,$sk) { + $sm = $sm|0; + $smlen = $smlen|0; + $m = $m|0; + $0 = $0|0; + $1 = $1|0; + $sk = $sk|0; + var $10 = 0, $11 = 0, $12 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $R = 0, $hram = 0, $nonce = 0, $pk1 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 320|0; + $pk1 = sp + 288|0; + $nonce = sp + 224|0; + $hram = sp + 160|0; + $R = sp; + $2 = (($sk) + 32|0); + dest=$pk1+0|0; src=$2+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + $3 = (_i64Add(($0|0),($1|0),64,0)|0); + $4 = tempRet0; + $5 = $smlen; + $6 = $5; + HEAP32[$6>>2] = $3; + $7 = (($5) + 4)|0; + $8 = $7; + HEAP32[$8>>2] = $4; + $9 = (($sm) + 64|0); + _memmove(($9|0),($m|0),($0|0))|0; + $10 = (($sm) + 32|0); + _memmove(($10|0),($sk|0),32)|0; + $11 = (_i64Add(($0|0),($1|0),32,0)|0); + $12 = tempRet0; + (_crypto_hash_sha512_ref($nonce,$10,$11,$12)|0); + dest=$10+0|0; src=$pk1+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + _crypto_sign_ed25519_ref10_sc_reduce($nonce); + _crypto_sign_ed25519_ref10_ge_scalarmult_base($R,$nonce); + _crypto_sign_ed25519_ref10_ge_p3_tobytes($sm,$R); + (_crypto_hash_sha512_ref($hram,$sm,$3,$4)|0); + _crypto_sign_ed25519_ref10_sc_reduce($hram); + _crypto_sign_ed25519_ref10_sc_muladd($10,$hram,$sk,$nonce); + STACKTOP = sp;return 0; +} +function _curve25519_donna($mypublic,$secret,$basepoint) { + $mypublic = $mypublic|0; + $secret = $secret|0; + $basepoint = $basepoint|0; + var $bp = 0, $e = 0, $x = 0, $z = 0, $zmone = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 368|0; + $bp = sp + 248|0; + $x = sp + 168|0; + $z = sp + 80|0; + $zmone = sp; + $e = sp + 328|0; + dest=$e+0|0; src=$secret+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + _fexpand($bp,$basepoint); + _cmult($x,$z,$e,$bp); + _crecip($zmone,$z); + _fmul($z,$x,$zmone); + _fcontract($mypublic,$z); + STACKTOP = sp;return 0; +} +function _fexpand($output,$input) { + $output = $output|0; + $input = $input|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0; + var $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0; + var $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0; + var $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0; + var $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0; + var $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $3 = 0, $30 = 0, $31 = 0; + var $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0; + var $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0; + var $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0; + var $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$input>>0]|0; + $1 = $0&255; + $2 = (($input) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($input) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + $15 = (($input) + 3|0); + $16 = HEAP8[$15>>0]|0; + $17 = $16&255; + $18 = (_bitshift64Shl(($17|0),0,24)|0); + $19 = tempRet0; + $20 = $18 & 50331648; + $21 = $13 | $20; + $22 = $output; + $23 = $22; + HEAP32[$23>>2] = $21; + $24 = (($22) + 4)|0; + $25 = $24; + HEAP32[$25>>2] = $14; + $26 = HEAP8[$15>>0]|0; + $27 = $26&255; + $28 = (($input) + 4|0); + $29 = HEAP8[$28>>0]|0; + $30 = $29&255; + $31 = (_bitshift64Shl(($30|0),0,8)|0); + $32 = tempRet0; + $33 = $31 | $27; + $34 = (($input) + 5|0); + $35 = HEAP8[$34>>0]|0; + $36 = $35&255; + $37 = (_bitshift64Shl(($36|0),0,16)|0); + $38 = tempRet0; + $39 = $33 | $37; + $40 = $32 | $38; + $41 = (($input) + 6|0); + $42 = HEAP8[$41>>0]|0; + $43 = $42&255; + $44 = (_bitshift64Shl(($43|0),0,24)|0); + $45 = tempRet0; + $46 = $39 | $44; + $47 = $40 | $45; + $48 = (_bitshift64Lshr(($46|0),($47|0),2)|0); + $49 = tempRet0; + $50 = $48 & 33554431; + $51 = (($output) + 8|0); + $52 = $51; + $53 = $52; + HEAP32[$53>>2] = $50; + $54 = (($52) + 4)|0; + $55 = $54; + HEAP32[$55>>2] = 0; + $56 = HEAP8[$41>>0]|0; + $57 = $56&255; + $58 = (($input) + 7|0); + $59 = HEAP8[$58>>0]|0; + $60 = $59&255; + $61 = (_bitshift64Shl(($60|0),0,8)|0); + $62 = tempRet0; + $63 = $61 | $57; + $64 = (($input) + 8|0); + $65 = HEAP8[$64>>0]|0; + $66 = $65&255; + $67 = (_bitshift64Shl(($66|0),0,16)|0); + $68 = tempRet0; + $69 = $63 | $67; + $70 = $62 | $68; + $71 = (($input) + 9|0); + $72 = HEAP8[$71>>0]|0; + $73 = $72&255; + $74 = (_bitshift64Shl(($73|0),0,24)|0); + $75 = tempRet0; + $76 = $69 | $74; + $77 = $70 | $75; + $78 = (_bitshift64Lshr(($76|0),($77|0),3)|0); + $79 = tempRet0; + $80 = $78 & 67108863; + $81 = (($output) + 16|0); + $82 = $81; + $83 = $82; + HEAP32[$83>>2] = $80; + $84 = (($82) + 4)|0; + $85 = $84; + HEAP32[$85>>2] = 0; + $86 = HEAP8[$71>>0]|0; + $87 = $86&255; + $88 = (($input) + 10|0); + $89 = HEAP8[$88>>0]|0; + $90 = $89&255; + $91 = (_bitshift64Shl(($90|0),0,8)|0); + $92 = tempRet0; + $93 = $91 | $87; + $94 = (($input) + 11|0); + $95 = HEAP8[$94>>0]|0; + $96 = $95&255; + $97 = (_bitshift64Shl(($96|0),0,16)|0); + $98 = tempRet0; + $99 = $93 | $97; + $100 = $92 | $98; + $101 = (($input) + 12|0); + $102 = HEAP8[$101>>0]|0; + $103 = $102&255; + $104 = (_bitshift64Shl(($103|0),0,24)|0); + $105 = tempRet0; + $106 = $99 | $104; + $107 = $100 | $105; + $108 = (_bitshift64Lshr(($106|0),($107|0),5)|0); + $109 = tempRet0; + $110 = $108 & 33554431; + $111 = (($output) + 24|0); + $112 = $111; + $113 = $112; + HEAP32[$113>>2] = $110; + $114 = (($112) + 4)|0; + $115 = $114; + HEAP32[$115>>2] = 0; + $116 = HEAP8[$101>>0]|0; + $117 = $116&255; + $118 = (($input) + 13|0); + $119 = HEAP8[$118>>0]|0; + $120 = $119&255; + $121 = (_bitshift64Shl(($120|0),0,8)|0); + $122 = tempRet0; + $123 = $121 | $117; + $124 = (($input) + 14|0); + $125 = HEAP8[$124>>0]|0; + $126 = $125&255; + $127 = (_bitshift64Shl(($126|0),0,16)|0); + $128 = tempRet0; + $129 = $123 | $127; + $130 = $122 | $128; + $131 = (($input) + 15|0); + $132 = HEAP8[$131>>0]|0; + $133 = $132&255; + $134 = (_bitshift64Shl(($133|0),0,24)|0); + $135 = tempRet0; + $136 = $129 | $134; + $137 = $130 | $135; + $138 = (_bitshift64Lshr(($136|0),($137|0),6)|0); + $139 = tempRet0; + $140 = $138 & 67108863; + $141 = (($output) + 32|0); + $142 = $141; + $143 = $142; + HEAP32[$143>>2] = $140; + $144 = (($142) + 4)|0; + $145 = $144; + HEAP32[$145>>2] = 0; + $146 = (($input) + 16|0); + $147 = HEAP8[$146>>0]|0; + $148 = $147&255; + $149 = (($input) + 17|0); + $150 = HEAP8[$149>>0]|0; + $151 = $150&255; + $152 = (_bitshift64Shl(($151|0),0,8)|0); + $153 = tempRet0; + $154 = $152 | $148; + $155 = (($input) + 18|0); + $156 = HEAP8[$155>>0]|0; + $157 = $156&255; + $158 = (_bitshift64Shl(($157|0),0,16)|0); + $159 = tempRet0; + $160 = $154 | $158; + $161 = $153 | $159; + $162 = (($input) + 19|0); + $163 = HEAP8[$162>>0]|0; + $164 = $163&255; + $165 = (_bitshift64Shl(($164|0),0,24)|0); + $166 = tempRet0; + $167 = $165 & 16777216; + $168 = $160 | $167; + $169 = (($output) + 40|0); + $170 = $169; + $171 = $170; + HEAP32[$171>>2] = $168; + $172 = (($170) + 4)|0; + $173 = $172; + HEAP32[$173>>2] = $161; + $174 = HEAP8[$162>>0]|0; + $175 = $174&255; + $176 = (($input) + 20|0); + $177 = HEAP8[$176>>0]|0; + $178 = $177&255; + $179 = (_bitshift64Shl(($178|0),0,8)|0); + $180 = tempRet0; + $181 = $179 | $175; + $182 = (($input) + 21|0); + $183 = HEAP8[$182>>0]|0; + $184 = $183&255; + $185 = (_bitshift64Shl(($184|0),0,16)|0); + $186 = tempRet0; + $187 = $181 | $185; + $188 = $180 | $186; + $189 = (($input) + 22|0); + $190 = HEAP8[$189>>0]|0; + $191 = $190&255; + $192 = (_bitshift64Shl(($191|0),0,24)|0); + $193 = tempRet0; + $194 = $187 | $192; + $195 = $188 | $193; + $196 = (_bitshift64Lshr(($194|0),($195|0),1)|0); + $197 = tempRet0; + $198 = $196 & 67108863; + $199 = (($output) + 48|0); + $200 = $199; + $201 = $200; + HEAP32[$201>>2] = $198; + $202 = (($200) + 4)|0; + $203 = $202; + HEAP32[$203>>2] = 0; + $204 = HEAP8[$189>>0]|0; + $205 = $204&255; + $206 = (($input) + 23|0); + $207 = HEAP8[$206>>0]|0; + $208 = $207&255; + $209 = (_bitshift64Shl(($208|0),0,8)|0); + $210 = tempRet0; + $211 = $209 | $205; + $212 = (($input) + 24|0); + $213 = HEAP8[$212>>0]|0; + $214 = $213&255; + $215 = (_bitshift64Shl(($214|0),0,16)|0); + $216 = tempRet0; + $217 = $211 | $215; + $218 = $210 | $216; + $219 = (($input) + 25|0); + $220 = HEAP8[$219>>0]|0; + $221 = $220&255; + $222 = (_bitshift64Shl(($221|0),0,24)|0); + $223 = tempRet0; + $224 = $217 | $222; + $225 = $218 | $223; + $226 = (_bitshift64Lshr(($224|0),($225|0),3)|0); + $227 = tempRet0; + $228 = $226 & 33554431; + $229 = (($output) + 56|0); + $230 = $229; + $231 = $230; + HEAP32[$231>>2] = $228; + $232 = (($230) + 4)|0; + $233 = $232; + HEAP32[$233>>2] = 0; + $234 = HEAP8[$219>>0]|0; + $235 = $234&255; + $236 = (($input) + 26|0); + $237 = HEAP8[$236>>0]|0; + $238 = $237&255; + $239 = (_bitshift64Shl(($238|0),0,8)|0); + $240 = tempRet0; + $241 = $239 | $235; + $242 = (($input) + 27|0); + $243 = HEAP8[$242>>0]|0; + $244 = $243&255; + $245 = (_bitshift64Shl(($244|0),0,16)|0); + $246 = tempRet0; + $247 = $241 | $245; + $248 = $240 | $246; + $249 = (($input) + 28|0); + $250 = HEAP8[$249>>0]|0; + $251 = $250&255; + $252 = (_bitshift64Shl(($251|0),0,24)|0); + $253 = tempRet0; + $254 = $247 | $252; + $255 = $248 | $253; + $256 = (_bitshift64Lshr(($254|0),($255|0),4)|0); + $257 = tempRet0; + $258 = $256 & 67108863; + $259 = (($output) + 64|0); + $260 = $259; + $261 = $260; + HEAP32[$261>>2] = $258; + $262 = (($260) + 4)|0; + $263 = $262; + HEAP32[$263>>2] = 0; + $264 = HEAP8[$249>>0]|0; + $265 = $264&255; + $266 = (($input) + 29|0); + $267 = HEAP8[$266>>0]|0; + $268 = $267&255; + $269 = (_bitshift64Shl(($268|0),0,8)|0); + $270 = tempRet0; + $271 = $269 | $265; + $272 = (($input) + 30|0); + $273 = HEAP8[$272>>0]|0; + $274 = $273&255; + $275 = (_bitshift64Shl(($274|0),0,16)|0); + $276 = tempRet0; + $277 = $271 | $275; + $278 = $270 | $276; + $279 = (($input) + 31|0); + $280 = HEAP8[$279>>0]|0; + $281 = $280&255; + $282 = (_bitshift64Shl(($281|0),0,24)|0); + $283 = tempRet0; + $284 = $277 | $282; + $285 = $278 | $283; + $286 = (_bitshift64Lshr(($284|0),($285|0),6)|0); + $287 = tempRet0; + $288 = $286 & 33554431; + $289 = (($output) + 72|0); + $290 = $289; + $291 = $290; + HEAP32[$291>>2] = $288; + $292 = (($290) + 4)|0; + $293 = $292; + HEAP32[$293>>2] = 0; + STACKTOP = sp;return; +} +function _cmult($resultx,$resultz,$n,$q) { + $resultx = $resultx|0; + $resultz = $resultz|0; + $n = $n|0; + $q = $q|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $3 = 0, $4 = 0; + var $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $a = 0, $b = 0, $byte$09 = 0, $c = 0, $d = 0, $e = 0, $exitcond = 0, $exitcond20 = 0, $f = 0, $g = 0, $h = 0, $i$018 = 0, $j$08 = 0, $nqpqx$019 = 0, $nqpqx$110 = 0; + var $nqpqx$110$phi = 0, $nqpqx2$014 = 0, $nqpqx2$14 = 0, $nqpqx2$14$phi = 0, $nqpqz$013 = 0, $nqpqz$13 = 0, $nqpqz$13$phi = 0, $nqpqz2$015 = 0, $nqpqz2$15 = 0, $nqpqz2$15$phi = 0, $nqx$011 = 0, $nqx$11 = 0, $nqx$11$phi = 0, $nqx2$016 = 0, $nqx2$16 = 0, $nqx2$16$phi = 0, $nqz$012 = 0, $nqz$12 = 0, $nqz$12$phi = 0, $nqz2$017 = 0; + var $nqz2$17 = 0, $nqz2$17$phi = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 1216|0; + $a = sp + 1064|0; + $b = sp + 912|0; + $c = sp + 760|0; + $d = sp + 608|0; + $e = sp + 456|0; + $f = sp + 304|0; + $g = sp + 152|0; + $h = sp; + _memset(($a|0),0,152)|0; + _memset(($b|0),0,152)|0; + $0 = $b; + $1 = $0; + HEAP32[$1>>2] = 1; + $2 = (($0) + 4)|0; + $3 = $2; + HEAP32[$3>>2] = 0; + _memset(($c|0),0,152)|0; + $4 = $c; + $5 = $4; + HEAP32[$5>>2] = 1; + $6 = (($4) + 4)|0; + $7 = $6; + HEAP32[$7>>2] = 0; + _memset(($d|0),0,152)|0; + _memset(($e|0),0,152)|0; + _memset(($f|0),0,152)|0; + $8 = $f; + $9 = $8; + HEAP32[$9>>2] = 1; + $10 = (($8) + 4)|0; + $11 = $10; + HEAP32[$11>>2] = 0; + _memset(($g|0),0,152)|0; + _memset(($h|0),0,152)|0; + $12 = $h; + $13 = $12; + HEAP32[$13>>2] = 1; + $14 = (($12) + 4)|0; + $15 = $14; + HEAP32[$15>>2] = 0; + dest=$a+0|0; src=$q+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + $i$018 = 0;$nqpqx$019 = $a;$nqpqx2$014 = $e;$nqpqz$013 = $b;$nqpqz2$015 = $f;$nqx$011 = $c;$nqx2$016 = $g;$nqz$012 = $d;$nqz2$017 = $h; + while(1) { + $16 = (31 - ($i$018))|0; + $17 = (($n) + ($16)|0); + $18 = HEAP8[$17>>0]|0; + $byte$09 = $18;$j$08 = 0;$nqpqx$110 = $nqpqx$019;$nqpqx2$14 = $nqpqx2$014;$nqpqz$13 = $nqpqz$013;$nqpqz2$15 = $nqpqz2$015;$nqx$11 = $nqx$011;$nqx2$16 = $nqx2$016;$nqz$12 = $nqz$012;$nqz2$17 = $nqz2$017; + while(1) { + $19 = $byte$09&255; + $20 = $19 >>> 7; + _swap_conditional($nqx$11,$nqpqx$110,$20,0); + _swap_conditional($nqz$12,$nqpqz$13,$20,0); + _fmonty($nqx2$16,$nqz2$17,$nqpqx2$14,$nqpqz2$15,$nqx$11,$nqz$12,$nqpqx$110,$nqpqz$13,$q); + _swap_conditional($nqx2$16,$nqpqx2$14,$20,0); + _swap_conditional($nqz2$17,$nqpqz2$15,$20,0); + $21 = $19 << 1; + $22 = $21&255; + $23 = (($j$08) + 1)|0; + $exitcond = ($23|0)==(8); + if ($exitcond) { + break; + } else { + $nqz2$17$phi = $nqz$12;$nqz$12$phi = $nqz2$17;$nqx2$16$phi = $nqx$11;$nqx$11$phi = $nqx2$16;$nqpqz2$15$phi = $nqpqz$13;$nqpqz$13$phi = $nqpqz2$15;$nqpqx2$14$phi = $nqpqx$110;$nqpqx$110$phi = $nqpqx2$14;$byte$09 = $22;$j$08 = $23;$nqz2$17 = $nqz2$17$phi;$nqz$12 = $nqz$12$phi;$nqx2$16 = $nqx2$16$phi;$nqx$11 = $nqx$11$phi;$nqpqz2$15 = $nqpqz2$15$phi;$nqpqz$13 = $nqpqz$13$phi;$nqpqx2$14 = $nqpqx2$14$phi;$nqpqx$110 = $nqpqx$110$phi; + } + } + $24 = (($i$018) + 1)|0; + $exitcond20 = ($24|0)==(32); + if ($exitcond20) { + break; + } else { + $i$018 = $24;$nqpqx$019 = $nqpqx2$14;$nqpqx2$014 = $nqpqx$110;$nqpqz$013 = $nqpqz2$15;$nqpqz2$015 = $nqpqz$13;$nqx$011 = $nqx2$16;$nqx2$016 = $nqx$11;$nqz$012 = $nqz2$17;$nqz2$017 = $nqz$12; + } + } + dest=$resultx+0|0; src=$nqx2$16+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + dest=$resultz+0|0; src=$nqz2$17+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + STACKTOP = sp;return; +} +function _crecip($out,$z) { + $out = $out|0; + $z = $z|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $i$33 = 0, $i$42 = 0, $i$51 = 0, $t0 = 0, $t1 = 0, $z11 = 0, $z2 = 0, $z2_100_0 = 0, $z2_10_0 = 0, $z2_20_0 = 0, $z2_50_0 = 0, $z2_5_0 = 0, $z9 = 0, label = 0; + var sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 800|0; + $z2 = sp + 720|0; + $z9 = sp + 640|0; + $z11 = sp + 560|0; + $z2_5_0 = sp + 480|0; + $z2_10_0 = sp + 400|0; + $z2_20_0 = sp + 320|0; + $z2_50_0 = sp + 240|0; + $z2_100_0 = sp + 160|0; + $t0 = sp + 80|0; + $t1 = sp; + _fsquare($z2,$z); + _fsquare($t1,$z2); + _fsquare($t0,$t1); + _fmul($z9,$t0,$z); + _fmul($z11,$z9,$z2); + _fsquare($t0,$z11); + _fmul($z2_5_0,$t0,$z9); + _fsquare($t0,$z2_5_0); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fmul($z2_10_0,$t0,$z2_5_0); + _fsquare($t0,$z2_10_0); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fmul($z2_20_0,$t1,$z2_10_0); + _fsquare($t0,$z2_20_0); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fmul($t0,$t1,$z2_20_0); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fmul($z2_50_0,$t0,$z2_10_0); + _fsquare($t0,$z2_50_0); + _fsquare($t1,$t0); + $i$33 = 2; + while(1) { + _fsquare($t0,$t1); + _fsquare($t1,$t0); + $0 = (($i$33) + 2)|0; + $1 = ($0|0)<(50); + if ($1) { + $i$33 = $0; + } else { + break; + } + } + _fmul($z2_100_0,$t1,$z2_50_0); + _fsquare($t1,$z2_100_0); + _fsquare($t0,$t1); + $i$42 = 2; + while(1) { + _fsquare($t1,$t0); + _fsquare($t0,$t1); + $2 = (($i$42) + 2)|0; + $3 = ($2|0)<(100); + if ($3) { + $i$42 = $2; + } else { + break; + } + } + _fmul($t1,$t0,$z2_100_0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + $i$51 = 2; + while(1) { + _fsquare($t0,$t1); + _fsquare($t1,$t0); + $4 = (($i$51) + 2)|0; + $5 = ($4|0)<(50); + if ($5) { + $i$51 = $4; + } else { + break; + } + } + _fmul($t0,$t1,$z2_50_0); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fsquare($t0,$t1); + _fsquare($t1,$t0); + _fmul($out,$t1,$z11); + STACKTOP = sp;return; +} +function _fmul($output,$in,$in2) { + $output = $output|0; + $in = $in|0; + $in2 = $in2|0; + var $t = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 160|0; + $t = sp; + _fproduct($t,$in,$in2); + _freduce_degree($t); + _freduce_coefficients($t); + dest=$output+0|0; src=$t+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + STACKTOP = sp;return; +} +function _fcontract($output,$input_limbs) { + $output = $output|0; + $input_limbs = $input_limbs|0; + var $$pn = 0, $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0; + var $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0; + var $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0; + var $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0; + var $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0; + var $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0; + var $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0; + var $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0; + var $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0; + var $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0; + var $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0; + var $296 = 0, $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0; + var $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0; + var $331 = 0, $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0; + var $35 = 0, $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0; + var $368 = 0, $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0; + var $386 = 0, $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0; + var $403 = 0, $404 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0; + var $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0; + var $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0; + var $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $exitcond = 0, $exitcond11 = 0, $exitcond11$1 = 0, $exitcond14 = 0, $exitcond14$1 = 0, $i$17 = 0, $i$17$1 = 0, $i$24 = 0, $i$24$1 = 0, $i$33 = 0, $input = 0, $mask$02 = 0, $mask$1 = 0, label = 0; + var sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 48|0; + $input = sp; + $0 = $input_limbs; + $1 = $0; + $2 = HEAP32[$1>>2]|0; + $3 = (($0) + 4)|0; + $4 = $3; + $5 = HEAP32[$4>>2]|0; + HEAP32[$input>>2] = $2; + $6 = (($input_limbs) + 8|0); + $7 = $6; + $8 = $7; + $9 = HEAP32[$8>>2]|0; + $10 = (($7) + 4)|0; + $11 = $10; + $12 = HEAP32[$11>>2]|0; + $13 = (($input) + 4|0); + HEAP32[$13>>2] = $9; + $14 = (($input_limbs) + 16|0); + $15 = $14; + $16 = $15; + $17 = HEAP32[$16>>2]|0; + $18 = (($15) + 4)|0; + $19 = $18; + $20 = HEAP32[$19>>2]|0; + $21 = (($input) + 8|0); + HEAP32[$21>>2] = $17; + $22 = (($input_limbs) + 24|0); + $23 = $22; + $24 = $23; + $25 = HEAP32[$24>>2]|0; + $26 = (($23) + 4)|0; + $27 = $26; + $28 = HEAP32[$27>>2]|0; + $29 = (($input) + 12|0); + HEAP32[$29>>2] = $25; + $30 = (($input_limbs) + 32|0); + $31 = $30; + $32 = $31; + $33 = HEAP32[$32>>2]|0; + $34 = (($31) + 4)|0; + $35 = $34; + $36 = HEAP32[$35>>2]|0; + $37 = (($input) + 16|0); + HEAP32[$37>>2] = $33; + $38 = (($input_limbs) + 40|0); + $39 = $38; + $40 = $39; + $41 = HEAP32[$40>>2]|0; + $42 = (($39) + 4)|0; + $43 = $42; + $44 = HEAP32[$43>>2]|0; + $45 = (($input) + 20|0); + HEAP32[$45>>2] = $41; + $46 = (($input_limbs) + 48|0); + $47 = $46; + $48 = $47; + $49 = HEAP32[$48>>2]|0; + $50 = (($47) + 4)|0; + $51 = $50; + $52 = HEAP32[$51>>2]|0; + $53 = (($input) + 24|0); + HEAP32[$53>>2] = $49; + $54 = (($input_limbs) + 56|0); + $55 = $54; + $56 = $55; + $57 = HEAP32[$56>>2]|0; + $58 = (($55) + 4)|0; + $59 = $58; + $60 = HEAP32[$59>>2]|0; + $61 = (($input) + 28|0); + HEAP32[$61>>2] = $57; + $62 = (($input_limbs) + 64|0); + $63 = $62; + $64 = $63; + $65 = HEAP32[$64>>2]|0; + $66 = (($63) + 4)|0; + $67 = $66; + $68 = HEAP32[$67>>2]|0; + $69 = (($input) + 32|0); + HEAP32[$69>>2] = $65; + $70 = (($input_limbs) + 72|0); + $71 = $70; + $72 = $71; + $73 = HEAP32[$72>>2]|0; + $74 = (($71) + 4)|0; + $75 = $74; + $76 = HEAP32[$75>>2]|0; + $77 = (($input) + 36|0); + HEAP32[$77>>2] = $73; + $78 = (($input) + 36|0); + $i$17 = 0; + while(1) { + $79 = $i$17 & 1; + $80 = ($79|0)==(0); + $81 = (($input) + ($i$17<<2)|0); + $82 = HEAP32[$81>>2]|0; + $83 = $82 >> 31; + $84 = $83 & $82; + if ($80) { + $92 = $84 >> 26; + $93 = Math_imul($92, -67108864)|0; + $94 = (($93) + ($82))|0; + HEAP32[$81>>2] = $94; + $95 = (($i$17) + 1)|0; + $96 = (($input) + ($95<<2)|0); + $97 = HEAP32[$96>>2]|0; + $98 = (($97) + ($92))|0; + HEAP32[$96>>2] = $98; + } else { + $85 = $84 >> 25; + $86 = Math_imul($85, -33554432)|0; + $87 = (($86) + ($82))|0; + HEAP32[$81>>2] = $87; + $88 = (($i$17) + 1)|0; + $89 = (($input) + ($88<<2)|0); + $90 = HEAP32[$89>>2]|0; + $91 = (($90) + ($85))|0; + HEAP32[$89>>2] = $91; + } + $99 = (($i$17) + 1)|0; + $exitcond14 = ($99|0)==(9); + if ($exitcond14) { + break; + } else { + $i$17 = $99; + } + } + $100 = HEAP32[$78>>2]|0; + $101 = $100 >> 31; + $102 = $101 & $100; + $103 = $102 >> 25; + $104 = Math_imul($103, -33554432)|0; + $105 = (($104) + ($100))|0; + HEAP32[$78>>2] = $105; + $106 = HEAP32[$input>>2]|0; + $107 = ($103*19)|0; + $108 = (($107) + ($106))|0; + HEAP32[$input>>2] = $108; + $i$17$1 = 0; + while(1) { + $384 = $i$17$1 & 1; + $385 = ($384|0)==(0); + $386 = (($input) + ($i$17$1<<2)|0); + $387 = HEAP32[$386>>2]|0; + $388 = $387 >> 31; + $389 = $388 & $387; + if ($385) { + $397 = $389 >> 26; + $398 = Math_imul($397, -67108864)|0; + $399 = (($398) + ($387))|0; + HEAP32[$386>>2] = $399; + $400 = (($i$17$1) + 1)|0; + $401 = (($input) + ($400<<2)|0); + $402 = HEAP32[$401>>2]|0; + $403 = (($402) + ($397))|0; + HEAP32[$401>>2] = $403; + } else { + $390 = $389 >> 25; + $391 = Math_imul($390, -33554432)|0; + $392 = (($391) + ($387))|0; + HEAP32[$386>>2] = $392; + $393 = (($i$17$1) + 1)|0; + $394 = (($input) + ($393<<2)|0); + $395 = HEAP32[$394>>2]|0; + $396 = (($395) + ($390))|0; + HEAP32[$394>>2] = $396; + } + $404 = (($i$17$1) + 1)|0; + $exitcond14$1 = ($404|0)==(9); + if ($exitcond14$1) { + break; + } else { + $i$17$1 = $404; + } + } + $109 = HEAP32[$78>>2]|0; + $110 = $109 >> 31; + $111 = $110 & $109; + $112 = $111 >> 25; + $113 = Math_imul($112, -33554432)|0; + $114 = (($113) + ($109))|0; + HEAP32[$78>>2] = $114; + $115 = HEAP32[$input>>2]|0; + $116 = ($112*19)|0; + $117 = (($116) + ($115))|0; + $118 = $117 >> 31; + $119 = $118 & $117; + $120 = $119 >> 26; + $121 = Math_imul($120, -67108864)|0; + $122 = (($121) + ($117))|0; + HEAP32[$input>>2] = $122; + $123 = (($input) + 4|0); + $124 = HEAP32[$123>>2]|0; + $125 = (($120) + ($124))|0; + HEAP32[$123>>2] = $125; + $126 = (($input) + 36|0); + $i$24 = 0; + while(1) { + $127 = $i$24 & 1; + $128 = ($127|0)==(0); + $129 = (($input) + ($i$24<<2)|0); + $130 = HEAP32[$129>>2]|0; + if ($128) { + $137 = $130 >> 26; + $138 = $130 & 67108863; + HEAP32[$129>>2] = $138; + $139 = (($i$24) + 1)|0; + $140 = (($input) + ($139<<2)|0); + $141 = HEAP32[$140>>2]|0; + $142 = (($141) + ($137))|0; + HEAP32[$140>>2] = $142; + } else { + $131 = $130 >> 25; + $132 = $130 & 33554431; + HEAP32[$129>>2] = $132; + $133 = (($i$24) + 1)|0; + $134 = (($input) + ($133<<2)|0); + $135 = HEAP32[$134>>2]|0; + $136 = (($135) + ($131))|0; + HEAP32[$134>>2] = $136; + } + $143 = (($i$24) + 1)|0; + $exitcond11 = ($143|0)==(9); + if ($exitcond11) { + break; + } else { + $i$24 = $143; + } + } + $144 = HEAP32[$126>>2]|0; + $145 = $144 >> 25; + $146 = $144 & 33554431; + HEAP32[$126>>2] = $146; + $147 = ($145*19)|0; + $148 = HEAP32[$input>>2]|0; + $149 = (($147) + ($148))|0; + HEAP32[$input>>2] = $149; + $i$24$1 = 0; + while(1) { + $360 = $i$24$1 & 1; + $361 = ($360|0)==(0); + $362 = (($input) + ($i$24$1<<2)|0); + $363 = HEAP32[$362>>2]|0; + if ($361) { + $370 = $363 >> 26; + $371 = $363 & 67108863; + HEAP32[$362>>2] = $371; + $372 = (($i$24$1) + 1)|0; + $373 = (($input) + ($372<<2)|0); + $374 = HEAP32[$373>>2]|0; + $375 = (($374) + ($370))|0; + HEAP32[$373>>2] = $375; + } else { + $364 = $363 >> 25; + $365 = $363 & 33554431; + HEAP32[$362>>2] = $365; + $366 = (($i$24$1) + 1)|0; + $367 = (($input) + ($366<<2)|0); + $368 = HEAP32[$367>>2]|0; + $369 = (($368) + ($364))|0; + HEAP32[$367>>2] = $369; + } + $376 = (($i$24$1) + 1)|0; + $exitcond11$1 = ($376|0)==(9); + if ($exitcond11$1) { + break; + } else { + $i$24$1 = $376; + } + } + $377 = HEAP32[$126>>2]|0; + $378 = $377 >> 25; + $379 = $377 & 33554431; + HEAP32[$126>>2] = $379; + $380 = ($378*19)|0; + $381 = HEAP32[$input>>2]|0; + $382 = (($380) + ($381))|0; + HEAP32[$input>>2] = $382; + $383 = (_s32_gte($382)|0); + $i$33 = 1;$mask$02 = $383; + while(1) { + $150 = $i$33 & 1; + $151 = ($150|0)==(0); + $152 = (($input) + ($i$33<<2)|0); + $153 = HEAP32[$152>>2]|0; + if ($151) { + $155 = (_s32_eq($153,67108863)|0); + $$pn = $155; + } else { + $154 = (_s32_eq($153,33554431)|0); + $$pn = $154; + } + $mask$1 = $$pn & $mask$02; + $156 = (($i$33) + 1)|0; + $exitcond = ($156|0)==(10); + if ($exitcond) { + break; + } else { + $i$33 = $156;$mask$02 = $mask$1; + } + } + $157 = $mask$1 & 67108845; + $158 = HEAP32[$input>>2]|0; + $159 = (($158) - ($157))|0; + HEAP32[$input>>2] = $159; + $160 = $mask$1 & 67108863; + $161 = $mask$1 & 33554431; + $162 = (($input) + 4|0); + $163 = HEAP32[$162>>2]|0; + $164 = (($163) - ($161))|0; + HEAP32[$162>>2] = $164; + $165 = (($input) + 8|0); + $166 = HEAP32[$165>>2]|0; + $167 = (($166) - ($160))|0; + HEAP32[$165>>2] = $167; + $168 = (($input) + 12|0); + $169 = HEAP32[$168>>2]|0; + $170 = (($169) - ($161))|0; + HEAP32[$168>>2] = $170; + $171 = (($input) + 16|0); + $172 = HEAP32[$171>>2]|0; + $173 = (($172) - ($160))|0; + HEAP32[$171>>2] = $173; + $174 = (($input) + 20|0); + $175 = HEAP32[$174>>2]|0; + $176 = (($175) - ($161))|0; + HEAP32[$174>>2] = $176; + $177 = (($input) + 24|0); + $178 = HEAP32[$177>>2]|0; + $179 = (($178) - ($160))|0; + HEAP32[$177>>2] = $179; + $180 = (($input) + 28|0); + $181 = HEAP32[$180>>2]|0; + $182 = (($181) - ($161))|0; + HEAP32[$180>>2] = $182; + $183 = (($input) + 32|0); + $184 = HEAP32[$183>>2]|0; + $185 = (($184) - ($160))|0; + HEAP32[$183>>2] = $185; + $186 = (($input) + 36|0); + $187 = HEAP32[$186>>2]|0; + $188 = (($187) - ($161))|0; + HEAP32[$186>>2] = $188; + $189 = HEAP32[$123>>2]|0; + $190 = $189 << 2; + HEAP32[$123>>2] = $190; + $191 = (($input) + 8|0); + $192 = HEAP32[$191>>2]|0; + $193 = $192 << 3; + HEAP32[$191>>2] = $193; + $194 = (($input) + 12|0); + $195 = HEAP32[$194>>2]|0; + $196 = $195 << 5; + HEAP32[$194>>2] = $196; + $197 = (($input) + 16|0); + $198 = HEAP32[$197>>2]|0; + $199 = $198 << 6; + HEAP32[$197>>2] = $199; + $200 = (($input) + 24|0); + $201 = HEAP32[$200>>2]|0; + $202 = $201 << 1; + HEAP32[$200>>2] = $202; + $203 = (($input) + 28|0); + $204 = HEAP32[$203>>2]|0; + $205 = $204 << 3; + HEAP32[$203>>2] = $205; + $206 = (($input) + 32|0); + $207 = HEAP32[$206>>2]|0; + $208 = $207 << 4; + HEAP32[$206>>2] = $208; + $209 = (($input) + 36|0); + $210 = HEAP32[$209>>2]|0; + $211 = $210 << 6; + HEAP32[$209>>2] = $211; + HEAP8[$output>>0] = 0; + $212 = (($output) + 16|0); + HEAP8[$212>>0] = 0; + $213 = HEAP32[$input>>2]|0; + $214 = HEAP8[$output>>0]|0; + $215 = $214&255; + $216 = $215 | $213; + $217 = $216&255; + HEAP8[$output>>0] = $217; + $218 = HEAP32[$input>>2]|0; + $219 = $218 >>> 8; + $220 = $219&255; + $221 = (($output) + 1|0); + HEAP8[$221>>0] = $220; + $222 = HEAP32[$input>>2]|0; + $223 = $222 >>> 16; + $224 = $223&255; + $225 = (($output) + 2|0); + HEAP8[$225>>0] = $224; + $226 = HEAP32[$input>>2]|0; + $227 = $226 >>> 24; + $228 = (($output) + 3|0); + $229 = HEAP32[$123>>2]|0; + $230 = $227 | $229; + $231 = $230&255; + HEAP8[$228>>0] = $231; + $232 = HEAP32[$123>>2]|0; + $233 = $232 >>> 8; + $234 = $233&255; + $235 = (($output) + 4|0); + HEAP8[$235>>0] = $234; + $236 = HEAP32[$123>>2]|0; + $237 = $236 >>> 16; + $238 = $237&255; + $239 = (($output) + 5|0); + HEAP8[$239>>0] = $238; + $240 = HEAP32[$123>>2]|0; + $241 = $240 >>> 24; + $242 = (($output) + 6|0); + $243 = HEAP32[$191>>2]|0; + $244 = $241 | $243; + $245 = $244&255; + HEAP8[$242>>0] = $245; + $246 = HEAP32[$191>>2]|0; + $247 = $246 >>> 8; + $248 = $247&255; + $249 = (($output) + 7|0); + HEAP8[$249>>0] = $248; + $250 = HEAP32[$191>>2]|0; + $251 = $250 >>> 16; + $252 = $251&255; + $253 = (($output) + 8|0); + HEAP8[$253>>0] = $252; + $254 = HEAP32[$191>>2]|0; + $255 = $254 >>> 24; + $256 = (($output) + 9|0); + $257 = HEAP32[$194>>2]|0; + $258 = $255 | $257; + $259 = $258&255; + HEAP8[$256>>0] = $259; + $260 = HEAP32[$194>>2]|0; + $261 = $260 >>> 8; + $262 = $261&255; + $263 = (($output) + 10|0); + HEAP8[$263>>0] = $262; + $264 = HEAP32[$194>>2]|0; + $265 = $264 >>> 16; + $266 = $265&255; + $267 = (($output) + 11|0); + HEAP8[$267>>0] = $266; + $268 = HEAP32[$194>>2]|0; + $269 = $268 >>> 24; + $270 = (($output) + 12|0); + $271 = HEAP32[$197>>2]|0; + $272 = $269 | $271; + $273 = $272&255; + HEAP8[$270>>0] = $273; + $274 = HEAP32[$197>>2]|0; + $275 = $274 >>> 8; + $276 = $275&255; + $277 = (($output) + 13|0); + HEAP8[$277>>0] = $276; + $278 = HEAP32[$197>>2]|0; + $279 = $278 >>> 16; + $280 = $279&255; + $281 = (($output) + 14|0); + HEAP8[$281>>0] = $280; + $282 = HEAP32[$197>>2]|0; + $283 = $282 >>> 24; + $284 = $283&255; + $285 = (($output) + 15|0); + HEAP8[$285>>0] = $284; + $286 = (($input) + 20|0); + $287 = HEAP32[$286>>2]|0; + $288 = HEAP8[$212>>0]|0; + $289 = $288&255; + $290 = $289 | $287; + $291 = $290&255; + HEAP8[$212>>0] = $291; + $292 = HEAP32[$286>>2]|0; + $293 = $292 >>> 8; + $294 = $293&255; + $295 = (($output) + 17|0); + HEAP8[$295>>0] = $294; + $296 = HEAP32[$286>>2]|0; + $297 = $296 >>> 16; + $298 = $297&255; + $299 = (($output) + 18|0); + HEAP8[$299>>0] = $298; + $300 = HEAP32[$286>>2]|0; + $301 = $300 >>> 24; + $302 = (($output) + 19|0); + $303 = HEAP32[$200>>2]|0; + $304 = $301 | $303; + $305 = $304&255; + HEAP8[$302>>0] = $305; + $306 = HEAP32[$200>>2]|0; + $307 = $306 >>> 8; + $308 = $307&255; + $309 = (($output) + 20|0); + HEAP8[$309>>0] = $308; + $310 = HEAP32[$200>>2]|0; + $311 = $310 >>> 16; + $312 = $311&255; + $313 = (($output) + 21|0); + HEAP8[$313>>0] = $312; + $314 = HEAP32[$200>>2]|0; + $315 = $314 >>> 24; + $316 = (($output) + 22|0); + $317 = HEAP32[$203>>2]|0; + $318 = $315 | $317; + $319 = $318&255; + HEAP8[$316>>0] = $319; + $320 = HEAP32[$203>>2]|0; + $321 = $320 >>> 8; + $322 = $321&255; + $323 = (($output) + 23|0); + HEAP8[$323>>0] = $322; + $324 = HEAP32[$203>>2]|0; + $325 = $324 >>> 16; + $326 = $325&255; + $327 = (($output) + 24|0); + HEAP8[$327>>0] = $326; + $328 = HEAP32[$203>>2]|0; + $329 = $328 >>> 24; + $330 = (($output) + 25|0); + $331 = HEAP32[$206>>2]|0; + $332 = $329 | $331; + $333 = $332&255; + HEAP8[$330>>0] = $333; + $334 = HEAP32[$206>>2]|0; + $335 = $334 >>> 8; + $336 = $335&255; + $337 = (($output) + 26|0); + HEAP8[$337>>0] = $336; + $338 = HEAP32[$206>>2]|0; + $339 = $338 >>> 16; + $340 = $339&255; + $341 = (($output) + 27|0); + HEAP8[$341>>0] = $340; + $342 = HEAP32[$206>>2]|0; + $343 = $342 >>> 24; + $344 = (($output) + 28|0); + $345 = HEAP32[$209>>2]|0; + $346 = $343 | $345; + $347 = $346&255; + HEAP8[$344>>0] = $347; + $348 = HEAP32[$209>>2]|0; + $349 = $348 >>> 8; + $350 = $349&255; + $351 = (($output) + 29|0); + HEAP8[$351>>0] = $350; + $352 = HEAP32[$209>>2]|0; + $353 = $352 >>> 16; + $354 = $353&255; + $355 = (($output) + 30|0); + HEAP8[$355>>0] = $354; + $356 = HEAP32[$209>>2]|0; + $357 = $356 >>> 24; + $358 = $357&255; + $359 = (($output) + 31|0); + HEAP8[$359>>0] = $358; + STACKTOP = sp;return; +} +function _swap_conditional($a,$b,$0,$1) { + $a = $a|0; + $b = $b|0; + $0 = $0|0; + $1 = $1|0; + var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0; + var $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0; + var $9 = 0, $exitcond = 0, $i$02 = 0, label = 0, sp = 0; + sp = STACKTOP; + $2 = (_i64Subtract(0,0,($0|0),($1|0))|0); + $3 = tempRet0; + $i$02 = 0; + while(1) { + $4 = (($a) + ($i$02<<3)|0); + $5 = $4; + $6 = $5; + $7 = HEAP32[$6>>2]|0; + $8 = (($5) + 4)|0; + $9 = $8; + $10 = HEAP32[$9>>2]|0; + $11 = (($b) + ($i$02<<3)|0); + $12 = $11; + $13 = $12; + $14 = HEAP32[$13>>2]|0; + $15 = (($12) + 4)|0; + $16 = $15; + $17 = HEAP32[$16>>2]|0; + $18 = $14 ^ $7; + $19 = $17 ^ $10; + $20 = $18 & $2; + $21 = $19 & $3; + $22 = $20 ^ $7; + $21 ^ $10; + $23 = (_bitshift64Ashr(0,($22|0),32)|0); + $24 = tempRet0; + $25 = $4; + $26 = $25; + HEAP32[$26>>2] = $23; + $27 = (($25) + 4)|0; + $28 = $27; + HEAP32[$28>>2] = $24; + $29 = $11; + $30 = $29; + $31 = HEAP32[$30>>2]|0; + $32 = (($29) + 4)|0; + $33 = $32; + $34 = HEAP32[$33>>2]|0; + $35 = $20 ^ $31; + $21 ^ $34; + $36 = (_bitshift64Ashr(0,($35|0),32)|0); + $37 = tempRet0; + $38 = $11; + $39 = $38; + HEAP32[$39>>2] = $36; + $40 = (($38) + 4)|0; + $41 = $40; + HEAP32[$41>>2] = $37; + $42 = (($i$02) + 1)|0; + $exitcond = ($42|0)==(10); + if ($exitcond) { + break; + } else { + $i$02 = $42; + } + } + STACKTOP = sp;return; +} +function _fmonty($x2,$z2,$x3,$z3,$x,$z,$xprime,$zprime,$qmqp) { + $x2 = $x2|0; + $z2 = $z2|0; + $x3 = $x3|0; + $z3 = $z3|0; + $x = $x|0; + $z = $z|0; + $xprime = $xprime|0; + $zprime = $zprime|0; + $qmqp = $qmqp|0; + var $0 = 0, $origx = 0, $origxprime = 0, $xx = 0, $xxprime = 0, $xxxprime = 0, $zz = 0, $zzprime = 0, $zzz = 0, $zzzprime = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 1232|0; + $origx = sp + 1144|0; + $origxprime = sp + 1064|0; + $zzz = sp + 912|0; + $xx = sp + 760|0; + $zz = sp + 608|0; + $xxprime = sp + 456|0; + $zzprime = sp + 304|0; + $zzzprime = sp + 152|0; + $xxxprime = sp; + dest=$origx+0|0; src=$x+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + _fsum($x,$z); + _fdifference($z,$origx); + dest=$origxprime+0|0; src=$xprime+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + _fsum($xprime,$zprime); + _fdifference($zprime,$origxprime); + _fproduct($xxprime,$xprime,$z); + _fproduct($zzprime,$x,$zprime); + _freduce_degree($xxprime); + _freduce_coefficients($xxprime); + _freduce_degree($zzprime); + _freduce_coefficients($zzprime); + dest=$origxprime+0|0; src=$xxprime+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + _fsum($xxprime,$zzprime); + _fdifference($zzprime,$origxprime); + _fsquare($xxxprime,$xxprime); + _fsquare($zzzprime,$zzprime); + _fproduct($zzprime,$zzzprime,$qmqp); + _freduce_degree($zzprime); + _freduce_coefficients($zzprime); + dest=$x3+0|0; src=$xxxprime+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + dest=$z3+0|0; src=$zzprime+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + _fsquare($xx,$x); + _fsquare($zz,$z); + _fproduct($x2,$xx,$zz); + _freduce_degree($x2); + _freduce_coefficients($x2); + _fdifference($zz,$xx); + $0 = (($zzz) + 80|0); + dest=$0+0|0; stop=dest+72|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0)); + _fscalar_product($zzz,$zz); + _freduce_coefficients($zzz); + _fsum($zzz,$xx); + _fproduct($z2,$zz,$zzz); + _freduce_degree($z2); + _freduce_coefficients($z2); + STACKTOP = sp;return; +} +function _fsquare($output,$in) { + $output = $output|0; + $in = $in|0; + var $t = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 160|0; + $t = sp; + _fsquare_inner($t,$in); + _freduce_degree($t); + _freduce_coefficients($t); + dest=$output+0|0; src=$t+0|0; stop=dest+80|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + STACKTOP = sp;return; +} +function _fproduct($output,$in2,$in) { + $output = $output|0; + $in2 = $in2|0; + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $1000 = 0, $1001 = 0, $1002 = 0, $1003 = 0, $1004 = 0, $1005 = 0, $1006 = 0, $1007 = 0, $1008 = 0, $1009 = 0, $101 = 0, $1010 = 0, $1011 = 0, $1012 = 0, $1013 = 0, $1014 = 0; + var $1015 = 0, $1016 = 0, $1017 = 0, $1018 = 0, $1019 = 0, $102 = 0, $1020 = 0, $1021 = 0, $1022 = 0, $1023 = 0, $1024 = 0, $1025 = 0, $1026 = 0, $1027 = 0, $1028 = 0, $1029 = 0, $103 = 0, $1030 = 0, $1031 = 0, $1032 = 0; + var $1033 = 0, $1034 = 0, $1035 = 0, $1036 = 0, $1037 = 0, $1038 = 0, $1039 = 0, $104 = 0, $1040 = 0, $1041 = 0, $1042 = 0, $1043 = 0, $1044 = 0, $1045 = 0, $1046 = 0, $1047 = 0, $1048 = 0, $1049 = 0, $105 = 0, $1050 = 0; + var $1051 = 0, $1052 = 0, $1053 = 0, $1054 = 0, $1055 = 0, $1056 = 0, $1057 = 0, $1058 = 0, $1059 = 0, $106 = 0, $1060 = 0, $1061 = 0, $1062 = 0, $1063 = 0, $1064 = 0, $1065 = 0, $1066 = 0, $1067 = 0, $1068 = 0, $1069 = 0; + var $107 = 0, $1070 = 0, $1071 = 0, $1072 = 0, $1073 = 0, $1074 = 0, $1075 = 0, $1076 = 0, $1077 = 0, $1078 = 0, $1079 = 0, $108 = 0, $1080 = 0, $1081 = 0, $1082 = 0, $1083 = 0, $1084 = 0, $1085 = 0, $1086 = 0, $1087 = 0; + var $1088 = 0, $1089 = 0, $109 = 0, $1090 = 0, $1091 = 0, $1092 = 0, $1093 = 0, $1094 = 0, $1095 = 0, $1096 = 0, $1097 = 0, $1098 = 0, $1099 = 0, $11 = 0, $110 = 0, $1100 = 0, $1101 = 0, $1102 = 0, $1103 = 0, $1104 = 0; + var $1105 = 0, $1106 = 0, $1107 = 0, $1108 = 0, $1109 = 0, $111 = 0, $1110 = 0, $1111 = 0, $1112 = 0, $1113 = 0, $1114 = 0, $1115 = 0, $1116 = 0, $1117 = 0, $1118 = 0, $1119 = 0, $112 = 0, $1120 = 0, $1121 = 0, $1122 = 0; + var $1123 = 0, $1124 = 0, $1125 = 0, $1126 = 0, $1127 = 0, $1128 = 0, $1129 = 0, $113 = 0, $1130 = 0, $1131 = 0, $1132 = 0, $1133 = 0, $1134 = 0, $1135 = 0, $1136 = 0, $1137 = 0, $1138 = 0, $1139 = 0, $114 = 0, $1140 = 0; + var $1141 = 0, $1142 = 0, $1143 = 0, $1144 = 0, $1145 = 0, $1146 = 0, $1147 = 0, $1148 = 0, $1149 = 0, $115 = 0, $1150 = 0, $1151 = 0, $1152 = 0, $1153 = 0, $1154 = 0, $1155 = 0, $1156 = 0, $1157 = 0, $1158 = 0, $1159 = 0; + var $116 = 0, $1160 = 0, $1161 = 0, $1162 = 0, $1163 = 0, $1164 = 0, $1165 = 0, $1166 = 0, $1167 = 0, $1168 = 0, $1169 = 0, $117 = 0, $1170 = 0, $1171 = 0, $1172 = 0, $1173 = 0, $1174 = 0, $1175 = 0, $1176 = 0, $1177 = 0; + var $1178 = 0, $1179 = 0, $118 = 0, $1180 = 0, $1181 = 0, $1182 = 0, $1183 = 0, $1184 = 0, $1185 = 0, $1186 = 0, $1187 = 0, $1188 = 0, $1189 = 0, $119 = 0, $1190 = 0, $1191 = 0, $1192 = 0, $1193 = 0, $1194 = 0, $1195 = 0; + var $1196 = 0, $1197 = 0, $1198 = 0, $1199 = 0, $12 = 0, $120 = 0, $1200 = 0, $1201 = 0, $1202 = 0, $1203 = 0, $1204 = 0, $1205 = 0, $1206 = 0, $1207 = 0, $1208 = 0, $1209 = 0, $121 = 0, $1210 = 0, $1211 = 0, $1212 = 0; + var $1213 = 0, $1214 = 0, $1215 = 0, $1216 = 0, $1217 = 0, $1218 = 0, $1219 = 0, $122 = 0, $1220 = 0, $1221 = 0, $1222 = 0, $1223 = 0, $1224 = 0, $1225 = 0, $1226 = 0, $1227 = 0, $1228 = 0, $1229 = 0, $123 = 0, $1230 = 0; + var $1231 = 0, $1232 = 0, $1233 = 0, $1234 = 0, $1235 = 0, $1236 = 0, $1237 = 0, $1238 = 0, $1239 = 0, $124 = 0, $1240 = 0, $1241 = 0, $1242 = 0, $1243 = 0, $1244 = 0, $1245 = 0, $1246 = 0, $1247 = 0, $1248 = 0, $1249 = 0; + var $125 = 0, $1250 = 0, $1251 = 0, $1252 = 0, $1253 = 0, $1254 = 0, $1255 = 0, $1256 = 0, $1257 = 0, $1258 = 0, $1259 = 0, $126 = 0, $1260 = 0, $1261 = 0, $1262 = 0, $1263 = 0, $1264 = 0, $1265 = 0, $1266 = 0, $1267 = 0; + var $1268 = 0, $1269 = 0, $127 = 0, $1270 = 0, $1271 = 0, $1272 = 0, $1273 = 0, $1274 = 0, $1275 = 0, $1276 = 0, $1277 = 0, $1278 = 0, $1279 = 0, $128 = 0, $1280 = 0, $1281 = 0, $1282 = 0, $1283 = 0, $1284 = 0, $1285 = 0; + var $1286 = 0, $1287 = 0, $1288 = 0, $1289 = 0, $129 = 0, $1290 = 0, $1291 = 0, $1292 = 0, $1293 = 0, $1294 = 0, $1295 = 0, $1296 = 0, $1297 = 0, $1298 = 0, $1299 = 0, $13 = 0, $130 = 0, $1300 = 0, $1301 = 0, $1302 = 0; + var $1303 = 0, $1304 = 0, $1305 = 0, $1306 = 0, $1307 = 0, $1308 = 0, $1309 = 0, $131 = 0, $1310 = 0, $1311 = 0, $1312 = 0, $1313 = 0, $1314 = 0, $1315 = 0, $1316 = 0, $1317 = 0, $1318 = 0, $1319 = 0, $132 = 0, $1320 = 0; + var $1321 = 0, $1322 = 0, $1323 = 0, $1324 = 0, $1325 = 0, $1326 = 0, $1327 = 0, $1328 = 0, $1329 = 0, $133 = 0, $1330 = 0, $1331 = 0, $1332 = 0, $1333 = 0, $1334 = 0, $1335 = 0, $1336 = 0, $1337 = 0, $1338 = 0, $1339 = 0; + var $134 = 0, $1340 = 0, $1341 = 0, $1342 = 0, $1343 = 0, $1344 = 0, $1345 = 0, $1346 = 0, $1347 = 0, $1348 = 0, $1349 = 0, $135 = 0, $1350 = 0, $1351 = 0, $1352 = 0, $1353 = 0, $1354 = 0, $1355 = 0, $1356 = 0, $1357 = 0; + var $1358 = 0, $1359 = 0, $136 = 0, $1360 = 0, $1361 = 0, $1362 = 0, $1363 = 0, $1364 = 0, $1365 = 0, $1366 = 0, $1367 = 0, $1368 = 0, $1369 = 0, $137 = 0, $1370 = 0, $1371 = 0, $1372 = 0, $1373 = 0, $1374 = 0, $1375 = 0; + var $1376 = 0, $1377 = 0, $1378 = 0, $1379 = 0, $138 = 0, $1380 = 0, $1381 = 0, $1382 = 0, $1383 = 0, $1384 = 0, $1385 = 0, $1386 = 0, $1387 = 0, $1388 = 0, $1389 = 0, $139 = 0, $1390 = 0, $1391 = 0, $1392 = 0, $1393 = 0; + var $1394 = 0, $1395 = 0, $1396 = 0, $1397 = 0, $1398 = 0, $1399 = 0, $14 = 0, $140 = 0, $1400 = 0, $1401 = 0, $1402 = 0, $1403 = 0, $1404 = 0, $1405 = 0, $1406 = 0, $1407 = 0, $1408 = 0, $1409 = 0, $141 = 0, $1410 = 0; + var $1411 = 0, $1412 = 0, $1413 = 0, $1414 = 0, $1415 = 0, $1416 = 0, $1417 = 0, $1418 = 0, $1419 = 0, $142 = 0, $1420 = 0, $1421 = 0, $1422 = 0, $1423 = 0, $1424 = 0, $1425 = 0, $1426 = 0, $1427 = 0, $1428 = 0, $1429 = 0; + var $143 = 0, $1430 = 0, $1431 = 0, $1432 = 0, $1433 = 0, $1434 = 0, $1435 = 0, $1436 = 0, $1437 = 0, $1438 = 0, $1439 = 0, $144 = 0, $1440 = 0, $1441 = 0, $1442 = 0, $1443 = 0, $1444 = 0, $1445 = 0, $1446 = 0, $1447 = 0; + var $1448 = 0, $1449 = 0, $145 = 0, $1450 = 0, $1451 = 0, $1452 = 0, $1453 = 0, $1454 = 0, $1455 = 0, $1456 = 0, $1457 = 0, $1458 = 0, $1459 = 0, $146 = 0, $1460 = 0, $1461 = 0, $1462 = 0, $1463 = 0, $1464 = 0, $1465 = 0; + var $1466 = 0, $1467 = 0, $1468 = 0, $1469 = 0, $147 = 0, $1470 = 0, $1471 = 0, $1472 = 0, $1473 = 0, $1474 = 0, $1475 = 0, $1476 = 0, $1477 = 0, $1478 = 0, $1479 = 0, $148 = 0, $1480 = 0, $1481 = 0, $1482 = 0, $1483 = 0; + var $1484 = 0, $1485 = 0, $1486 = 0, $1487 = 0, $1488 = 0, $1489 = 0, $149 = 0, $1490 = 0, $1491 = 0, $1492 = 0, $1493 = 0, $1494 = 0, $1495 = 0, $1496 = 0, $1497 = 0, $1498 = 0, $1499 = 0, $15 = 0, $150 = 0, $1500 = 0; + var $1501 = 0, $1502 = 0, $1503 = 0, $1504 = 0, $1505 = 0, $1506 = 0, $1507 = 0, $1508 = 0, $1509 = 0, $151 = 0, $1510 = 0, $1511 = 0, $1512 = 0, $1513 = 0, $1514 = 0, $1515 = 0, $1516 = 0, $1517 = 0, $1518 = 0, $1519 = 0; + var $152 = 0, $1520 = 0, $1521 = 0, $1522 = 0, $1523 = 0, $1524 = 0, $1525 = 0, $1526 = 0, $1527 = 0, $1528 = 0, $1529 = 0, $153 = 0, $1530 = 0, $1531 = 0, $1532 = 0, $1533 = 0, $1534 = 0, $1535 = 0, $1536 = 0, $1537 = 0; + var $1538 = 0, $1539 = 0, $154 = 0, $1540 = 0, $1541 = 0, $1542 = 0, $1543 = 0, $1544 = 0, $1545 = 0, $1546 = 0, $1547 = 0, $1548 = 0, $1549 = 0, $155 = 0, $1550 = 0, $1551 = 0, $1552 = 0, $1553 = 0, $1554 = 0, $1555 = 0; + var $1556 = 0, $1557 = 0, $1558 = 0, $1559 = 0, $156 = 0, $1560 = 0, $1561 = 0, $1562 = 0, $1563 = 0, $1564 = 0, $1565 = 0, $1566 = 0, $1567 = 0, $1568 = 0, $1569 = 0, $157 = 0, $1570 = 0, $1571 = 0, $1572 = 0, $1573 = 0; + var $1574 = 0, $1575 = 0, $1576 = 0, $1577 = 0, $1578 = 0, $1579 = 0, $158 = 0, $1580 = 0, $1581 = 0, $1582 = 0, $1583 = 0, $1584 = 0, $1585 = 0, $1586 = 0, $1587 = 0, $1588 = 0, $1589 = 0, $159 = 0, $1590 = 0, $1591 = 0; + var $1592 = 0, $1593 = 0, $1594 = 0, $1595 = 0, $1596 = 0, $1597 = 0, $1598 = 0, $1599 = 0, $16 = 0, $160 = 0, $1600 = 0, $1601 = 0, $1602 = 0, $1603 = 0, $1604 = 0, $1605 = 0, $1606 = 0, $1607 = 0, $1608 = 0, $1609 = 0; + var $161 = 0, $1610 = 0, $1611 = 0, $1612 = 0, $1613 = 0, $1614 = 0, $1615 = 0, $1616 = 0, $1617 = 0, $1618 = 0, $1619 = 0, $162 = 0, $1620 = 0, $1621 = 0, $1622 = 0, $1623 = 0, $1624 = 0, $1625 = 0, $1626 = 0, $1627 = 0; + var $1628 = 0, $1629 = 0, $163 = 0, $1630 = 0, $1631 = 0, $1632 = 0, $1633 = 0, $1634 = 0, $1635 = 0, $1636 = 0, $1637 = 0, $1638 = 0, $1639 = 0, $164 = 0, $1640 = 0, $1641 = 0, $1642 = 0, $1643 = 0, $1644 = 0, $1645 = 0; + var $1646 = 0, $1647 = 0, $1648 = 0, $1649 = 0, $165 = 0, $1650 = 0, $1651 = 0, $1652 = 0, $1653 = 0, $1654 = 0, $1655 = 0, $1656 = 0, $1657 = 0, $1658 = 0, $1659 = 0, $166 = 0, $1660 = 0, $1661 = 0, $1662 = 0, $1663 = 0; + var $1664 = 0, $1665 = 0, $1666 = 0, $1667 = 0, $1668 = 0, $1669 = 0, $167 = 0, $1670 = 0, $1671 = 0, $1672 = 0, $1673 = 0, $1674 = 0, $1675 = 0, $1676 = 0, $1677 = 0, $1678 = 0, $1679 = 0, $168 = 0, $1680 = 0, $1681 = 0; + var $1682 = 0, $1683 = 0, $1684 = 0, $1685 = 0, $1686 = 0, $1687 = 0, $1688 = 0, $1689 = 0, $169 = 0, $1690 = 0, $1691 = 0, $1692 = 0, $1693 = 0, $1694 = 0, $1695 = 0, $1696 = 0, $1697 = 0, $1698 = 0, $1699 = 0, $17 = 0; + var $170 = 0, $1700 = 0, $1701 = 0, $1702 = 0, $1703 = 0, $1704 = 0, $1705 = 0, $1706 = 0, $1707 = 0, $1708 = 0, $1709 = 0, $171 = 0, $1710 = 0, $1711 = 0, $1712 = 0, $1713 = 0, $1714 = 0, $1715 = 0, $1716 = 0, $1717 = 0; + var $1718 = 0, $1719 = 0, $172 = 0, $1720 = 0, $1721 = 0, $1722 = 0, $1723 = 0, $1724 = 0, $1725 = 0, $1726 = 0, $1727 = 0, $1728 = 0, $1729 = 0, $173 = 0, $1730 = 0, $1731 = 0, $1732 = 0, $1733 = 0, $1734 = 0, $1735 = 0; + var $1736 = 0, $1737 = 0, $1738 = 0, $1739 = 0, $174 = 0, $1740 = 0, $1741 = 0, $1742 = 0, $1743 = 0, $1744 = 0, $1745 = 0, $1746 = 0, $1747 = 0, $1748 = 0, $1749 = 0, $175 = 0, $1750 = 0, $1751 = 0, $1752 = 0, $1753 = 0; + var $1754 = 0, $1755 = 0, $1756 = 0, $1757 = 0, $1758 = 0, $1759 = 0, $176 = 0, $1760 = 0, $1761 = 0, $1762 = 0, $1763 = 0, $1764 = 0, $1765 = 0, $1766 = 0, $1767 = 0, $1768 = 0, $1769 = 0, $177 = 0, $1770 = 0, $1771 = 0; + var $1772 = 0, $1773 = 0, $1774 = 0, $1775 = 0, $1776 = 0, $1777 = 0, $1778 = 0, $1779 = 0, $178 = 0, $1780 = 0, $1781 = 0, $1782 = 0, $1783 = 0, $1784 = 0, $1785 = 0, $1786 = 0, $1787 = 0, $1788 = 0, $1789 = 0, $179 = 0; + var $1790 = 0, $1791 = 0, $1792 = 0, $1793 = 0, $1794 = 0, $1795 = 0, $1796 = 0, $1797 = 0, $1798 = 0, $1799 = 0, $18 = 0, $180 = 0, $1800 = 0, $1801 = 0, $1802 = 0, $1803 = 0, $1804 = 0, $1805 = 0, $1806 = 0, $1807 = 0; + var $1808 = 0, $1809 = 0, $181 = 0, $1810 = 0, $1811 = 0, $1812 = 0, $1813 = 0, $1814 = 0, $1815 = 0, $1816 = 0, $1817 = 0, $1818 = 0, $1819 = 0, $182 = 0, $1820 = 0, $1821 = 0, $1822 = 0, $1823 = 0, $1824 = 0, $1825 = 0; + var $1826 = 0, $1827 = 0, $1828 = 0, $1829 = 0, $183 = 0, $1830 = 0, $1831 = 0, $1832 = 0, $1833 = 0, $1834 = 0, $1835 = 0, $1836 = 0, $1837 = 0, $1838 = 0, $1839 = 0, $184 = 0, $1840 = 0, $1841 = 0, $1842 = 0, $1843 = 0; + var $1844 = 0, $1845 = 0, $1846 = 0, $1847 = 0, $1848 = 0, $1849 = 0, $185 = 0, $1850 = 0, $1851 = 0, $1852 = 0, $1853 = 0, $1854 = 0, $1855 = 0, $1856 = 0, $1857 = 0, $1858 = 0, $1859 = 0, $186 = 0, $1860 = 0, $1861 = 0; + var $1862 = 0, $1863 = 0, $1864 = 0, $1865 = 0, $1866 = 0, $1867 = 0, $1868 = 0, $1869 = 0, $187 = 0, $1870 = 0, $1871 = 0, $1872 = 0, $1873 = 0, $1874 = 0, $1875 = 0, $1876 = 0, $1877 = 0, $1878 = 0, $1879 = 0, $188 = 0; + var $1880 = 0, $1881 = 0, $1882 = 0, $1883 = 0, $1884 = 0, $1885 = 0, $1886 = 0, $1887 = 0, $1888 = 0, $1889 = 0, $189 = 0, $1890 = 0, $1891 = 0, $1892 = 0, $1893 = 0, $1894 = 0, $1895 = 0, $1896 = 0, $1897 = 0, $1898 = 0; + var $1899 = 0, $19 = 0, $190 = 0, $1900 = 0, $1901 = 0, $1902 = 0, $1903 = 0, $1904 = 0, $1905 = 0, $1906 = 0, $1907 = 0, $1908 = 0, $1909 = 0, $191 = 0, $1910 = 0, $1911 = 0, $1912 = 0, $1913 = 0, $1914 = 0, $1915 = 0; + var $1916 = 0, $1917 = 0, $1918 = 0, $1919 = 0, $192 = 0, $1920 = 0, $1921 = 0, $1922 = 0, $1923 = 0, $1924 = 0, $1925 = 0, $1926 = 0, $1927 = 0, $1928 = 0, $1929 = 0, $193 = 0, $1930 = 0, $1931 = 0, $1932 = 0, $1933 = 0; + var $1934 = 0, $1935 = 0, $1936 = 0, $1937 = 0, $1938 = 0, $1939 = 0, $194 = 0, $1940 = 0, $1941 = 0, $1942 = 0, $1943 = 0, $1944 = 0, $1945 = 0, $1946 = 0, $1947 = 0, $1948 = 0, $1949 = 0, $195 = 0, $1950 = 0, $1951 = 0; + var $1952 = 0, $1953 = 0, $1954 = 0, $1955 = 0, $1956 = 0, $1957 = 0, $1958 = 0, $1959 = 0, $196 = 0, $1960 = 0, $1961 = 0, $1962 = 0, $1963 = 0, $1964 = 0, $1965 = 0, $1966 = 0, $1967 = 0, $1968 = 0, $1969 = 0, $197 = 0; + var $1970 = 0, $1971 = 0, $1972 = 0, $1973 = 0, $1974 = 0, $1975 = 0, $1976 = 0, $1977 = 0, $1978 = 0, $1979 = 0, $198 = 0, $1980 = 0, $1981 = 0, $1982 = 0, $1983 = 0, $1984 = 0, $1985 = 0, $1986 = 0, $1987 = 0, $1988 = 0; + var $1989 = 0, $199 = 0, $1990 = 0, $1991 = 0, $1992 = 0, $1993 = 0, $1994 = 0, $1995 = 0, $1996 = 0, $1997 = 0, $1998 = 0, $1999 = 0, $2 = 0, $20 = 0, $200 = 0, $2000 = 0, $2001 = 0, $2002 = 0, $2003 = 0, $2004 = 0; + var $2005 = 0, $2006 = 0, $2007 = 0, $2008 = 0, $2009 = 0, $201 = 0, $2010 = 0, $2011 = 0, $2012 = 0, $2013 = 0, $2014 = 0, $2015 = 0, $2016 = 0, $2017 = 0, $2018 = 0, $2019 = 0, $202 = 0, $2020 = 0, $2021 = 0, $2022 = 0; + var $2023 = 0, $2024 = 0, $2025 = 0, $2026 = 0, $2027 = 0, $2028 = 0, $2029 = 0, $203 = 0, $2030 = 0, $2031 = 0, $2032 = 0, $2033 = 0, $2034 = 0, $2035 = 0, $2036 = 0, $2037 = 0, $2038 = 0, $2039 = 0, $204 = 0, $2040 = 0; + var $2041 = 0, $2042 = 0, $2043 = 0, $2044 = 0, $2045 = 0, $2046 = 0, $2047 = 0, $2048 = 0, $2049 = 0, $205 = 0, $2050 = 0, $2051 = 0, $2052 = 0, $2053 = 0, $2054 = 0, $2055 = 0, $2056 = 0, $2057 = 0, $2058 = 0, $2059 = 0; + var $206 = 0, $2060 = 0, $2061 = 0, $2062 = 0, $2063 = 0, $2064 = 0, $2065 = 0, $2066 = 0, $2067 = 0, $2068 = 0, $2069 = 0, $207 = 0, $2070 = 0, $2071 = 0, $2072 = 0, $2073 = 0, $2074 = 0, $2075 = 0, $2076 = 0, $2077 = 0; + var $2078 = 0, $2079 = 0, $208 = 0, $2080 = 0, $2081 = 0, $2082 = 0, $2083 = 0, $2084 = 0, $2085 = 0, $2086 = 0, $2087 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0; + var $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0; + var $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0; + var $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0; + var $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0; + var $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0; + var $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0; + var $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0; + var $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0, $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0; + var $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0; + var $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0; + var $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0, $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0; + var $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0, $422 = 0, $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0; + var $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0, $440 = 0, $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0; + var $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0, $459 = 0, $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0; + var $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0, $477 = 0, $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0; + var $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0, $495 = 0, $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0; + var $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0, $512 = 0, $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0; + var $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0, $530 = 0, $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0; + var $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0, $549 = 0, $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0; + var $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0, $567 = 0, $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0; + var $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0, $585 = 0, $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0; + var $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0, $602 = 0, $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0; + var $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0, $620 = 0, $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0; + var $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0, $636 = 0, $637 = 0, $638 = 0, $639 = 0, $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0; + var $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0, $654 = 0, $655 = 0, $656 = 0, $657 = 0, $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0; + var $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0, $672 = 0, $673 = 0, $674 = 0, $675 = 0, $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0; + var $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0, $690 = 0, $691 = 0, $692 = 0, $693 = 0, $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0; + var $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0, $708 = 0, $709 = 0, $71 = 0, $710 = 0, $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0; + var $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0, $726 = 0, $727 = 0, $728 = 0, $729 = 0, $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0; + var $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0, $744 = 0, $745 = 0, $746 = 0, $747 = 0, $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0; + var $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0, $762 = 0, $763 = 0, $764 = 0, $765 = 0, $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0; + var $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0, $780 = 0, $781 = 0, $782 = 0, $783 = 0, $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0; + var $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0, $799 = 0, $8 = 0, $80 = 0, $800 = 0, $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0; + var $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0, $816 = 0, $817 = 0, $818 = 0, $819 = 0, $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0; + var $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0, $834 = 0, $835 = 0, $836 = 0, $837 = 0, $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0; + var $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0, $852 = 0, $853 = 0, $854 = 0, $855 = 0, $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0; + var $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0, $870 = 0, $871 = 0, $872 = 0, $873 = 0, $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0; + var $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0, $889 = 0, $89 = 0, $890 = 0, $891 = 0, $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0; + var $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0, $906 = 0, $907 = 0, $908 = 0, $909 = 0, $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0; + var $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0, $924 = 0, $925 = 0, $926 = 0, $927 = 0, $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0; + var $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0, $942 = 0, $943 = 0, $944 = 0, $945 = 0, $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $954 = 0, $955 = 0; + var $956 = 0, $957 = 0, $958 = 0, $959 = 0, $96 = 0, $960 = 0, $961 = 0, $962 = 0, $963 = 0, $964 = 0, $965 = 0, $966 = 0, $967 = 0, $968 = 0, $969 = 0, $97 = 0, $970 = 0, $971 = 0, $972 = 0, $973 = 0; + var $974 = 0, $975 = 0, $976 = 0, $977 = 0, $978 = 0, $979 = 0, $98 = 0, $980 = 0, $981 = 0, $982 = 0, $983 = 0, $984 = 0, $985 = 0, $986 = 0, $987 = 0, $988 = 0, $989 = 0, $99 = 0, $990 = 0, $991 = 0; + var $992 = 0, $993 = 0, $994 = 0, $995 = 0, $996 = 0, $997 = 0, $998 = 0, $999 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $in2; + $1 = $0; + $2 = HEAP32[$1>>2]|0; + $3 = (($0) + 4)|0; + $4 = $3; + $5 = HEAP32[$4>>2]|0; + $6 = (_bitshift64Ashr(0,($2|0),32)|0); + $7 = tempRet0; + $8 = $in; + $9 = $8; + $10 = HEAP32[$9>>2]|0; + $11 = (($8) + 4)|0; + $12 = $11; + $13 = HEAP32[$12>>2]|0; + $14 = (_bitshift64Ashr(0,($10|0),32)|0); + $15 = tempRet0; + $16 = (___muldi3(($14|0),($15|0),($6|0),($7|0))|0); + $17 = tempRet0; + $18 = $output; + $19 = $18; + HEAP32[$19>>2] = $16; + $20 = (($18) + 4)|0; + $21 = $20; + HEAP32[$21>>2] = $17; + $22 = $in2; + $23 = $22; + $24 = HEAP32[$23>>2]|0; + $25 = (($22) + 4)|0; + $26 = $25; + $27 = HEAP32[$26>>2]|0; + $28 = (_bitshift64Ashr(0,($24|0),32)|0); + $29 = tempRet0; + $30 = (($in) + 8|0); + $31 = $30; + $32 = $31; + $33 = HEAP32[$32>>2]|0; + $34 = (($31) + 4)|0; + $35 = $34; + $36 = HEAP32[$35>>2]|0; + $37 = (_bitshift64Ashr(0,($33|0),32)|0); + $38 = tempRet0; + $39 = (___muldi3(($37|0),($38|0),($28|0),($29|0))|0); + $40 = tempRet0; + $41 = (($in2) + 8|0); + $42 = $41; + $43 = $42; + $44 = HEAP32[$43>>2]|0; + $45 = (($42) + 4)|0; + $46 = $45; + $47 = HEAP32[$46>>2]|0; + $48 = (_bitshift64Ashr(0,($44|0),32)|0); + $49 = tempRet0; + $50 = $in; + $51 = $50; + $52 = HEAP32[$51>>2]|0; + $53 = (($50) + 4)|0; + $54 = $53; + $55 = HEAP32[$54>>2]|0; + $56 = (_bitshift64Ashr(0,($52|0),32)|0); + $57 = tempRet0; + $58 = (___muldi3(($56|0),($57|0),($48|0),($49|0))|0); + $59 = tempRet0; + $60 = (_i64Add(($58|0),($59|0),($39|0),($40|0))|0); + $61 = tempRet0; + $62 = (($output) + 8|0); + $63 = $62; + $64 = $63; + HEAP32[$64>>2] = $60; + $65 = (($63) + 4)|0; + $66 = $65; + HEAP32[$66>>2] = $61; + $67 = $41; + $68 = $67; + $69 = HEAP32[$68>>2]|0; + $70 = (($67) + 4)|0; + $71 = $70; + $72 = HEAP32[$71>>2]|0; + $73 = (_bitshift64Ashr(0,($69|0),31)|0); + $74 = tempRet0; + $75 = $30; + $76 = $75; + $77 = HEAP32[$76>>2]|0; + $78 = (($75) + 4)|0; + $79 = $78; + $80 = HEAP32[$79>>2]|0; + $81 = (_bitshift64Ashr(0,($77|0),32)|0); + $82 = tempRet0; + $83 = (___muldi3(($81|0),($82|0),($73|0),($74|0))|0); + $84 = tempRet0; + $85 = $in2; + $86 = $85; + $87 = HEAP32[$86>>2]|0; + $88 = (($85) + 4)|0; + $89 = $88; + $90 = HEAP32[$89>>2]|0; + $91 = (_bitshift64Ashr(0,($87|0),32)|0); + $92 = tempRet0; + $93 = (($in) + 16|0); + $94 = $93; + $95 = $94; + $96 = HEAP32[$95>>2]|0; + $97 = (($94) + 4)|0; + $98 = $97; + $99 = HEAP32[$98>>2]|0; + $100 = (_bitshift64Ashr(0,($96|0),32)|0); + $101 = tempRet0; + $102 = (___muldi3(($100|0),($101|0),($91|0),($92|0))|0); + $103 = tempRet0; + $104 = (_i64Add(($102|0),($103|0),($83|0),($84|0))|0); + $105 = tempRet0; + $106 = (($in2) + 16|0); + $107 = $106; + $108 = $107; + $109 = HEAP32[$108>>2]|0; + $110 = (($107) + 4)|0; + $111 = $110; + $112 = HEAP32[$111>>2]|0; + $113 = (_bitshift64Ashr(0,($109|0),32)|0); + $114 = tempRet0; + $115 = $in; + $116 = $115; + $117 = HEAP32[$116>>2]|0; + $118 = (($115) + 4)|0; + $119 = $118; + $120 = HEAP32[$119>>2]|0; + $121 = (_bitshift64Ashr(0,($117|0),32)|0); + $122 = tempRet0; + $123 = (___muldi3(($121|0),($122|0),($113|0),($114|0))|0); + $124 = tempRet0; + $125 = (_i64Add(($104|0),($105|0),($123|0),($124|0))|0); + $126 = tempRet0; + $127 = (($output) + 16|0); + $128 = $127; + $129 = $128; + HEAP32[$129>>2] = $125; + $130 = (($128) + 4)|0; + $131 = $130; + HEAP32[$131>>2] = $126; + $132 = $41; + $133 = $132; + $134 = HEAP32[$133>>2]|0; + $135 = (($132) + 4)|0; + $136 = $135; + $137 = HEAP32[$136>>2]|0; + $138 = (_bitshift64Ashr(0,($134|0),32)|0); + $139 = tempRet0; + $140 = $93; + $141 = $140; + $142 = HEAP32[$141>>2]|0; + $143 = (($140) + 4)|0; + $144 = $143; + $145 = HEAP32[$144>>2]|0; + $146 = (_bitshift64Ashr(0,($142|0),32)|0); + $147 = tempRet0; + $148 = (___muldi3(($146|0),($147|0),($138|0),($139|0))|0); + $149 = tempRet0; + $150 = $106; + $151 = $150; + $152 = HEAP32[$151>>2]|0; + $153 = (($150) + 4)|0; + $154 = $153; + $155 = HEAP32[$154>>2]|0; + $156 = (_bitshift64Ashr(0,($152|0),32)|0); + $157 = tempRet0; + $158 = $30; + $159 = $158; + $160 = HEAP32[$159>>2]|0; + $161 = (($158) + 4)|0; + $162 = $161; + $163 = HEAP32[$162>>2]|0; + $164 = (_bitshift64Ashr(0,($160|0),32)|0); + $165 = tempRet0; + $166 = (___muldi3(($164|0),($165|0),($156|0),($157|0))|0); + $167 = tempRet0; + $168 = (_i64Add(($166|0),($167|0),($148|0),($149|0))|0); + $169 = tempRet0; + $170 = $in2; + $171 = $170; + $172 = HEAP32[$171>>2]|0; + $173 = (($170) + 4)|0; + $174 = $173; + $175 = HEAP32[$174>>2]|0; + $176 = (_bitshift64Ashr(0,($172|0),32)|0); + $177 = tempRet0; + $178 = (($in) + 24|0); + $179 = $178; + $180 = $179; + $181 = HEAP32[$180>>2]|0; + $182 = (($179) + 4)|0; + $183 = $182; + $184 = HEAP32[$183>>2]|0; + $185 = (_bitshift64Ashr(0,($181|0),32)|0); + $186 = tempRet0; + $187 = (___muldi3(($185|0),($186|0),($176|0),($177|0))|0); + $188 = tempRet0; + $189 = (_i64Add(($168|0),($169|0),($187|0),($188|0))|0); + $190 = tempRet0; + $191 = (($in2) + 24|0); + $192 = $191; + $193 = $192; + $194 = HEAP32[$193>>2]|0; + $195 = (($192) + 4)|0; + $196 = $195; + $197 = HEAP32[$196>>2]|0; + $198 = (_bitshift64Ashr(0,($194|0),32)|0); + $199 = tempRet0; + $200 = $in; + $201 = $200; + $202 = HEAP32[$201>>2]|0; + $203 = (($200) + 4)|0; + $204 = $203; + $205 = HEAP32[$204>>2]|0; + $206 = (_bitshift64Ashr(0,($202|0),32)|0); + $207 = tempRet0; + $208 = (___muldi3(($206|0),($207|0),($198|0),($199|0))|0); + $209 = tempRet0; + $210 = (_i64Add(($189|0),($190|0),($208|0),($209|0))|0); + $211 = tempRet0; + $212 = (($output) + 24|0); + $213 = $212; + $214 = $213; + HEAP32[$214>>2] = $210; + $215 = (($213) + 4)|0; + $216 = $215; + HEAP32[$216>>2] = $211; + $217 = $106; + $218 = $217; + $219 = HEAP32[$218>>2]|0; + $220 = (($217) + 4)|0; + $221 = $220; + $222 = HEAP32[$221>>2]|0; + $223 = (_bitshift64Ashr(0,($219|0),32)|0); + $224 = tempRet0; + $225 = $93; + $226 = $225; + $227 = HEAP32[$226>>2]|0; + $228 = (($225) + 4)|0; + $229 = $228; + $230 = HEAP32[$229>>2]|0; + $231 = (_bitshift64Ashr(0,($227|0),32)|0); + $232 = tempRet0; + $233 = (___muldi3(($231|0),($232|0),($223|0),($224|0))|0); + $234 = tempRet0; + $235 = $41; + $236 = $235; + $237 = HEAP32[$236>>2]|0; + $238 = (($235) + 4)|0; + $239 = $238; + $240 = HEAP32[$239>>2]|0; + $241 = (_bitshift64Ashr(0,($237|0),32)|0); + $242 = tempRet0; + $243 = $178; + $244 = $243; + $245 = HEAP32[$244>>2]|0; + $246 = (($243) + 4)|0; + $247 = $246; + $248 = HEAP32[$247>>2]|0; + $249 = (_bitshift64Ashr(0,($245|0),32)|0); + $250 = tempRet0; + $251 = (___muldi3(($249|0),($250|0),($241|0),($242|0))|0); + $252 = tempRet0; + $253 = $191; + $254 = $253; + $255 = HEAP32[$254>>2]|0; + $256 = (($253) + 4)|0; + $257 = $256; + $258 = HEAP32[$257>>2]|0; + $259 = (_bitshift64Ashr(0,($255|0),32)|0); + $260 = tempRet0; + $261 = $30; + $262 = $261; + $263 = HEAP32[$262>>2]|0; + $264 = (($261) + 4)|0; + $265 = $264; + $266 = HEAP32[$265>>2]|0; + $267 = (_bitshift64Ashr(0,($263|0),32)|0); + $268 = tempRet0; + $269 = (___muldi3(($267|0),($268|0),($259|0),($260|0))|0); + $270 = tempRet0; + $271 = (_i64Add(($269|0),($270|0),($251|0),($252|0))|0); + $272 = tempRet0; + $273 = (_bitshift64Shl(($271|0),($272|0),1)|0); + $274 = tempRet0; + $275 = (_i64Add(($273|0),($274|0),($233|0),($234|0))|0); + $276 = tempRet0; + $277 = $in2; + $278 = $277; + $279 = HEAP32[$278>>2]|0; + $280 = (($277) + 4)|0; + $281 = $280; + $282 = HEAP32[$281>>2]|0; + $283 = (_bitshift64Ashr(0,($279|0),32)|0); + $284 = tempRet0; + $285 = (($in) + 32|0); + $286 = $285; + $287 = $286; + $288 = HEAP32[$287>>2]|0; + $289 = (($286) + 4)|0; + $290 = $289; + $291 = HEAP32[$290>>2]|0; + $292 = (_bitshift64Ashr(0,($288|0),32)|0); + $293 = tempRet0; + $294 = (___muldi3(($292|0),($293|0),($283|0),($284|0))|0); + $295 = tempRet0; + $296 = (_i64Add(($275|0),($276|0),($294|0),($295|0))|0); + $297 = tempRet0; + $298 = (($in2) + 32|0); + $299 = $298; + $300 = $299; + $301 = HEAP32[$300>>2]|0; + $302 = (($299) + 4)|0; + $303 = $302; + $304 = HEAP32[$303>>2]|0; + $305 = (_bitshift64Ashr(0,($301|0),32)|0); + $306 = tempRet0; + $307 = $in; + $308 = $307; + $309 = HEAP32[$308>>2]|0; + $310 = (($307) + 4)|0; + $311 = $310; + $312 = HEAP32[$311>>2]|0; + $313 = (_bitshift64Ashr(0,($309|0),32)|0); + $314 = tempRet0; + $315 = (___muldi3(($313|0),($314|0),($305|0),($306|0))|0); + $316 = tempRet0; + $317 = (_i64Add(($296|0),($297|0),($315|0),($316|0))|0); + $318 = tempRet0; + $319 = (($output) + 32|0); + $320 = $319; + $321 = $320; + HEAP32[$321>>2] = $317; + $322 = (($320) + 4)|0; + $323 = $322; + HEAP32[$323>>2] = $318; + $324 = $106; + $325 = $324; + $326 = HEAP32[$325>>2]|0; + $327 = (($324) + 4)|0; + $328 = $327; + $329 = HEAP32[$328>>2]|0; + $330 = (_bitshift64Ashr(0,($326|0),32)|0); + $331 = tempRet0; + $332 = $178; + $333 = $332; + $334 = HEAP32[$333>>2]|0; + $335 = (($332) + 4)|0; + $336 = $335; + $337 = HEAP32[$336>>2]|0; + $338 = (_bitshift64Ashr(0,($334|0),32)|0); + $339 = tempRet0; + $340 = (___muldi3(($338|0),($339|0),($330|0),($331|0))|0); + $341 = tempRet0; + $342 = $191; + $343 = $342; + $344 = HEAP32[$343>>2]|0; + $345 = (($342) + 4)|0; + $346 = $345; + $347 = HEAP32[$346>>2]|0; + $348 = (_bitshift64Ashr(0,($344|0),32)|0); + $349 = tempRet0; + $350 = $93; + $351 = $350; + $352 = HEAP32[$351>>2]|0; + $353 = (($350) + 4)|0; + $354 = $353; + $355 = HEAP32[$354>>2]|0; + $356 = (_bitshift64Ashr(0,($352|0),32)|0); + $357 = tempRet0; + $358 = (___muldi3(($356|0),($357|0),($348|0),($349|0))|0); + $359 = tempRet0; + $360 = (_i64Add(($358|0),($359|0),($340|0),($341|0))|0); + $361 = tempRet0; + $362 = $41; + $363 = $362; + $364 = HEAP32[$363>>2]|0; + $365 = (($362) + 4)|0; + $366 = $365; + $367 = HEAP32[$366>>2]|0; + $368 = (_bitshift64Ashr(0,($364|0),32)|0); + $369 = tempRet0; + $370 = $285; + $371 = $370; + $372 = HEAP32[$371>>2]|0; + $373 = (($370) + 4)|0; + $374 = $373; + $375 = HEAP32[$374>>2]|0; + $376 = (_bitshift64Ashr(0,($372|0),32)|0); + $377 = tempRet0; + $378 = (___muldi3(($376|0),($377|0),($368|0),($369|0))|0); + $379 = tempRet0; + $380 = (_i64Add(($360|0),($361|0),($378|0),($379|0))|0); + $381 = tempRet0; + $382 = $298; + $383 = $382; + $384 = HEAP32[$383>>2]|0; + $385 = (($382) + 4)|0; + $386 = $385; + $387 = HEAP32[$386>>2]|0; + $388 = (_bitshift64Ashr(0,($384|0),32)|0); + $389 = tempRet0; + $390 = $30; + $391 = $390; + $392 = HEAP32[$391>>2]|0; + $393 = (($390) + 4)|0; + $394 = $393; + $395 = HEAP32[$394>>2]|0; + $396 = (_bitshift64Ashr(0,($392|0),32)|0); + $397 = tempRet0; + $398 = (___muldi3(($396|0),($397|0),($388|0),($389|0))|0); + $399 = tempRet0; + $400 = (_i64Add(($380|0),($381|0),($398|0),($399|0))|0); + $401 = tempRet0; + $402 = $in2; + $403 = $402; + $404 = HEAP32[$403>>2]|0; + $405 = (($402) + 4)|0; + $406 = $405; + $407 = HEAP32[$406>>2]|0; + $408 = (_bitshift64Ashr(0,($404|0),32)|0); + $409 = tempRet0; + $410 = (($in) + 40|0); + $411 = $410; + $412 = $411; + $413 = HEAP32[$412>>2]|0; + $414 = (($411) + 4)|0; + $415 = $414; + $416 = HEAP32[$415>>2]|0; + $417 = (_bitshift64Ashr(0,($413|0),32)|0); + $418 = tempRet0; + $419 = (___muldi3(($417|0),($418|0),($408|0),($409|0))|0); + $420 = tempRet0; + $421 = (_i64Add(($400|0),($401|0),($419|0),($420|0))|0); + $422 = tempRet0; + $423 = (($in2) + 40|0); + $424 = $423; + $425 = $424; + $426 = HEAP32[$425>>2]|0; + $427 = (($424) + 4)|0; + $428 = $427; + $429 = HEAP32[$428>>2]|0; + $430 = (_bitshift64Ashr(0,($426|0),32)|0); + $431 = tempRet0; + $432 = $in; + $433 = $432; + $434 = HEAP32[$433>>2]|0; + $435 = (($432) + 4)|0; + $436 = $435; + $437 = HEAP32[$436>>2]|0; + $438 = (_bitshift64Ashr(0,($434|0),32)|0); + $439 = tempRet0; + $440 = (___muldi3(($438|0),($439|0),($430|0),($431|0))|0); + $441 = tempRet0; + $442 = (_i64Add(($421|0),($422|0),($440|0),($441|0))|0); + $443 = tempRet0; + $444 = (($output) + 40|0); + $445 = $444; + $446 = $445; + HEAP32[$446>>2] = $442; + $447 = (($445) + 4)|0; + $448 = $447; + HEAP32[$448>>2] = $443; + $449 = $191; + $450 = $449; + $451 = HEAP32[$450>>2]|0; + $452 = (($449) + 4)|0; + $453 = $452; + $454 = HEAP32[$453>>2]|0; + $455 = (_bitshift64Ashr(0,($451|0),32)|0); + $456 = tempRet0; + $457 = $178; + $458 = $457; + $459 = HEAP32[$458>>2]|0; + $460 = (($457) + 4)|0; + $461 = $460; + $462 = HEAP32[$461>>2]|0; + $463 = (_bitshift64Ashr(0,($459|0),32)|0); + $464 = tempRet0; + $465 = (___muldi3(($463|0),($464|0),($455|0),($456|0))|0); + $466 = tempRet0; + $467 = $41; + $468 = $467; + $469 = HEAP32[$468>>2]|0; + $470 = (($467) + 4)|0; + $471 = $470; + $472 = HEAP32[$471>>2]|0; + $473 = (_bitshift64Ashr(0,($469|0),32)|0); + $474 = tempRet0; + $475 = $410; + $476 = $475; + $477 = HEAP32[$476>>2]|0; + $478 = (($475) + 4)|0; + $479 = $478; + $480 = HEAP32[$479>>2]|0; + $481 = (_bitshift64Ashr(0,($477|0),32)|0); + $482 = tempRet0; + $483 = (___muldi3(($481|0),($482|0),($473|0),($474|0))|0); + $484 = tempRet0; + $485 = (_i64Add(($483|0),($484|0),($465|0),($466|0))|0); + $486 = tempRet0; + $487 = $423; + $488 = $487; + $489 = HEAP32[$488>>2]|0; + $490 = (($487) + 4)|0; + $491 = $490; + $492 = HEAP32[$491>>2]|0; + $493 = (_bitshift64Ashr(0,($489|0),32)|0); + $494 = tempRet0; + $495 = $30; + $496 = $495; + $497 = HEAP32[$496>>2]|0; + $498 = (($495) + 4)|0; + $499 = $498; + $500 = HEAP32[$499>>2]|0; + $501 = (_bitshift64Ashr(0,($497|0),32)|0); + $502 = tempRet0; + $503 = (___muldi3(($501|0),($502|0),($493|0),($494|0))|0); + $504 = tempRet0; + $505 = (_i64Add(($485|0),($486|0),($503|0),($504|0))|0); + $506 = tempRet0; + $507 = (_bitshift64Shl(($505|0),($506|0),1)|0); + $508 = tempRet0; + $509 = $106; + $510 = $509; + $511 = HEAP32[$510>>2]|0; + $512 = (($509) + 4)|0; + $513 = $512; + $514 = HEAP32[$513>>2]|0; + $515 = (_bitshift64Ashr(0,($511|0),32)|0); + $516 = tempRet0; + $517 = $285; + $518 = $517; + $519 = HEAP32[$518>>2]|0; + $520 = (($517) + 4)|0; + $521 = $520; + $522 = HEAP32[$521>>2]|0; + $523 = (_bitshift64Ashr(0,($519|0),32)|0); + $524 = tempRet0; + $525 = (___muldi3(($523|0),($524|0),($515|0),($516|0))|0); + $526 = tempRet0; + $527 = (_i64Add(($507|0),($508|0),($525|0),($526|0))|0); + $528 = tempRet0; + $529 = $298; + $530 = $529; + $531 = HEAP32[$530>>2]|0; + $532 = (($529) + 4)|0; + $533 = $532; + $534 = HEAP32[$533>>2]|0; + $535 = (_bitshift64Ashr(0,($531|0),32)|0); + $536 = tempRet0; + $537 = $93; + $538 = $537; + $539 = HEAP32[$538>>2]|0; + $540 = (($537) + 4)|0; + $541 = $540; + $542 = HEAP32[$541>>2]|0; + $543 = (_bitshift64Ashr(0,($539|0),32)|0); + $544 = tempRet0; + $545 = (___muldi3(($543|0),($544|0),($535|0),($536|0))|0); + $546 = tempRet0; + $547 = (_i64Add(($527|0),($528|0),($545|0),($546|0))|0); + $548 = tempRet0; + $549 = $in2; + $550 = $549; + $551 = HEAP32[$550>>2]|0; + $552 = (($549) + 4)|0; + $553 = $552; + $554 = HEAP32[$553>>2]|0; + $555 = (_bitshift64Ashr(0,($551|0),32)|0); + $556 = tempRet0; + $557 = (($in) + 48|0); + $558 = $557; + $559 = $558; + $560 = HEAP32[$559>>2]|0; + $561 = (($558) + 4)|0; + $562 = $561; + $563 = HEAP32[$562>>2]|0; + $564 = (_bitshift64Ashr(0,($560|0),32)|0); + $565 = tempRet0; + $566 = (___muldi3(($564|0),($565|0),($555|0),($556|0))|0); + $567 = tempRet0; + $568 = (_i64Add(($547|0),($548|0),($566|0),($567|0))|0); + $569 = tempRet0; + $570 = (($in2) + 48|0); + $571 = $570; + $572 = $571; + $573 = HEAP32[$572>>2]|0; + $574 = (($571) + 4)|0; + $575 = $574; + $576 = HEAP32[$575>>2]|0; + $577 = (_bitshift64Ashr(0,($573|0),32)|0); + $578 = tempRet0; + $579 = $in; + $580 = $579; + $581 = HEAP32[$580>>2]|0; + $582 = (($579) + 4)|0; + $583 = $582; + $584 = HEAP32[$583>>2]|0; + $585 = (_bitshift64Ashr(0,($581|0),32)|0); + $586 = tempRet0; + $587 = (___muldi3(($585|0),($586|0),($577|0),($578|0))|0); + $588 = tempRet0; + $589 = (_i64Add(($568|0),($569|0),($587|0),($588|0))|0); + $590 = tempRet0; + $591 = (($output) + 48|0); + $592 = $591; + $593 = $592; + HEAP32[$593>>2] = $589; + $594 = (($592) + 4)|0; + $595 = $594; + HEAP32[$595>>2] = $590; + $596 = $191; + $597 = $596; + $598 = HEAP32[$597>>2]|0; + $599 = (($596) + 4)|0; + $600 = $599; + $601 = HEAP32[$600>>2]|0; + $602 = (_bitshift64Ashr(0,($598|0),32)|0); + $603 = tempRet0; + $604 = $285; + $605 = $604; + $606 = HEAP32[$605>>2]|0; + $607 = (($604) + 4)|0; + $608 = $607; + $609 = HEAP32[$608>>2]|0; + $610 = (_bitshift64Ashr(0,($606|0),32)|0); + $611 = tempRet0; + $612 = (___muldi3(($610|0),($611|0),($602|0),($603|0))|0); + $613 = tempRet0; + $614 = $298; + $615 = $614; + $616 = HEAP32[$615>>2]|0; + $617 = (($614) + 4)|0; + $618 = $617; + $619 = HEAP32[$618>>2]|0; + $620 = (_bitshift64Ashr(0,($616|0),32)|0); + $621 = tempRet0; + $622 = $178; + $623 = $622; + $624 = HEAP32[$623>>2]|0; + $625 = (($622) + 4)|0; + $626 = $625; + $627 = HEAP32[$626>>2]|0; + $628 = (_bitshift64Ashr(0,($624|0),32)|0); + $629 = tempRet0; + $630 = (___muldi3(($628|0),($629|0),($620|0),($621|0))|0); + $631 = tempRet0; + $632 = (_i64Add(($630|0),($631|0),($612|0),($613|0))|0); + $633 = tempRet0; + $634 = $106; + $635 = $634; + $636 = HEAP32[$635>>2]|0; + $637 = (($634) + 4)|0; + $638 = $637; + $639 = HEAP32[$638>>2]|0; + $640 = (_bitshift64Ashr(0,($636|0),32)|0); + $641 = tempRet0; + $642 = $410; + $643 = $642; + $644 = HEAP32[$643>>2]|0; + $645 = (($642) + 4)|0; + $646 = $645; + $647 = HEAP32[$646>>2]|0; + $648 = (_bitshift64Ashr(0,($644|0),32)|0); + $649 = tempRet0; + $650 = (___muldi3(($648|0),($649|0),($640|0),($641|0))|0); + $651 = tempRet0; + $652 = (_i64Add(($632|0),($633|0),($650|0),($651|0))|0); + $653 = tempRet0; + $654 = $423; + $655 = $654; + $656 = HEAP32[$655>>2]|0; + $657 = (($654) + 4)|0; + $658 = $657; + $659 = HEAP32[$658>>2]|0; + $660 = (_bitshift64Ashr(0,($656|0),32)|0); + $661 = tempRet0; + $662 = $93; + $663 = $662; + $664 = HEAP32[$663>>2]|0; + $665 = (($662) + 4)|0; + $666 = $665; + $667 = HEAP32[$666>>2]|0; + $668 = (_bitshift64Ashr(0,($664|0),32)|0); + $669 = tempRet0; + $670 = (___muldi3(($668|0),($669|0),($660|0),($661|0))|0); + $671 = tempRet0; + $672 = (_i64Add(($652|0),($653|0),($670|0),($671|0))|0); + $673 = tempRet0; + $674 = $41; + $675 = $674; + $676 = HEAP32[$675>>2]|0; + $677 = (($674) + 4)|0; + $678 = $677; + $679 = HEAP32[$678>>2]|0; + $680 = (_bitshift64Ashr(0,($676|0),32)|0); + $681 = tempRet0; + $682 = $557; + $683 = $682; + $684 = HEAP32[$683>>2]|0; + $685 = (($682) + 4)|0; + $686 = $685; + $687 = HEAP32[$686>>2]|0; + $688 = (_bitshift64Ashr(0,($684|0),32)|0); + $689 = tempRet0; + $690 = (___muldi3(($688|0),($689|0),($680|0),($681|0))|0); + $691 = tempRet0; + $692 = (_i64Add(($672|0),($673|0),($690|0),($691|0))|0); + $693 = tempRet0; + $694 = $570; + $695 = $694; + $696 = HEAP32[$695>>2]|0; + $697 = (($694) + 4)|0; + $698 = $697; + $699 = HEAP32[$698>>2]|0; + $700 = (_bitshift64Ashr(0,($696|0),32)|0); + $701 = tempRet0; + $702 = $30; + $703 = $702; + $704 = HEAP32[$703>>2]|0; + $705 = (($702) + 4)|0; + $706 = $705; + $707 = HEAP32[$706>>2]|0; + $708 = (_bitshift64Ashr(0,($704|0),32)|0); + $709 = tempRet0; + $710 = (___muldi3(($708|0),($709|0),($700|0),($701|0))|0); + $711 = tempRet0; + $712 = (_i64Add(($692|0),($693|0),($710|0),($711|0))|0); + $713 = tempRet0; + $714 = $in2; + $715 = $714; + $716 = HEAP32[$715>>2]|0; + $717 = (($714) + 4)|0; + $718 = $717; + $719 = HEAP32[$718>>2]|0; + $720 = (_bitshift64Ashr(0,($716|0),32)|0); + $721 = tempRet0; + $722 = (($in) + 56|0); + $723 = $722; + $724 = $723; + $725 = HEAP32[$724>>2]|0; + $726 = (($723) + 4)|0; + $727 = $726; + $728 = HEAP32[$727>>2]|0; + $729 = (_bitshift64Ashr(0,($725|0),32)|0); + $730 = tempRet0; + $731 = (___muldi3(($729|0),($730|0),($720|0),($721|0))|0); + $732 = tempRet0; + $733 = (_i64Add(($712|0),($713|0),($731|0),($732|0))|0); + $734 = tempRet0; + $735 = (($in2) + 56|0); + $736 = $735; + $737 = $736; + $738 = HEAP32[$737>>2]|0; + $739 = (($736) + 4)|0; + $740 = $739; + $741 = HEAP32[$740>>2]|0; + $742 = (_bitshift64Ashr(0,($738|0),32)|0); + $743 = tempRet0; + $744 = $in; + $745 = $744; + $746 = HEAP32[$745>>2]|0; + $747 = (($744) + 4)|0; + $748 = $747; + $749 = HEAP32[$748>>2]|0; + $750 = (_bitshift64Ashr(0,($746|0),32)|0); + $751 = tempRet0; + $752 = (___muldi3(($750|0),($751|0),($742|0),($743|0))|0); + $753 = tempRet0; + $754 = (_i64Add(($733|0),($734|0),($752|0),($753|0))|0); + $755 = tempRet0; + $756 = (($output) + 56|0); + $757 = $756; + $758 = $757; + HEAP32[$758>>2] = $754; + $759 = (($757) + 4)|0; + $760 = $759; + HEAP32[$760>>2] = $755; + $761 = $298; + $762 = $761; + $763 = HEAP32[$762>>2]|0; + $764 = (($761) + 4)|0; + $765 = $764; + $766 = HEAP32[$765>>2]|0; + $767 = (_bitshift64Ashr(0,($763|0),32)|0); + $768 = tempRet0; + $769 = $285; + $770 = $769; + $771 = HEAP32[$770>>2]|0; + $772 = (($769) + 4)|0; + $773 = $772; + $774 = HEAP32[$773>>2]|0; + $775 = (_bitshift64Ashr(0,($771|0),32)|0); + $776 = tempRet0; + $777 = (___muldi3(($775|0),($776|0),($767|0),($768|0))|0); + $778 = tempRet0; + $779 = $191; + $780 = $779; + $781 = HEAP32[$780>>2]|0; + $782 = (($779) + 4)|0; + $783 = $782; + $784 = HEAP32[$783>>2]|0; + $785 = (_bitshift64Ashr(0,($781|0),32)|0); + $786 = tempRet0; + $787 = $410; + $788 = $787; + $789 = HEAP32[$788>>2]|0; + $790 = (($787) + 4)|0; + $791 = $790; + $792 = HEAP32[$791>>2]|0; + $793 = (_bitshift64Ashr(0,($789|0),32)|0); + $794 = tempRet0; + $795 = (___muldi3(($793|0),($794|0),($785|0),($786|0))|0); + $796 = tempRet0; + $797 = $423; + $798 = $797; + $799 = HEAP32[$798>>2]|0; + $800 = (($797) + 4)|0; + $801 = $800; + $802 = HEAP32[$801>>2]|0; + $803 = (_bitshift64Ashr(0,($799|0),32)|0); + $804 = tempRet0; + $805 = $178; + $806 = $805; + $807 = HEAP32[$806>>2]|0; + $808 = (($805) + 4)|0; + $809 = $808; + $810 = HEAP32[$809>>2]|0; + $811 = (_bitshift64Ashr(0,($807|0),32)|0); + $812 = tempRet0; + $813 = (___muldi3(($811|0),($812|0),($803|0),($804|0))|0); + $814 = tempRet0; + $815 = (_i64Add(($813|0),($814|0),($795|0),($796|0))|0); + $816 = tempRet0; + $817 = $41; + $818 = $817; + $819 = HEAP32[$818>>2]|0; + $820 = (($817) + 4)|0; + $821 = $820; + $822 = HEAP32[$821>>2]|0; + $823 = (_bitshift64Ashr(0,($819|0),32)|0); + $824 = tempRet0; + $825 = $722; + $826 = $825; + $827 = HEAP32[$826>>2]|0; + $828 = (($825) + 4)|0; + $829 = $828; + $830 = HEAP32[$829>>2]|0; + $831 = (_bitshift64Ashr(0,($827|0),32)|0); + $832 = tempRet0; + $833 = (___muldi3(($831|0),($832|0),($823|0),($824|0))|0); + $834 = tempRet0; + $835 = (_i64Add(($815|0),($816|0),($833|0),($834|0))|0); + $836 = tempRet0; + $837 = $735; + $838 = $837; + $839 = HEAP32[$838>>2]|0; + $840 = (($837) + 4)|0; + $841 = $840; + $842 = HEAP32[$841>>2]|0; + $843 = (_bitshift64Ashr(0,($839|0),32)|0); + $844 = tempRet0; + $845 = $30; + $846 = $845; + $847 = HEAP32[$846>>2]|0; + $848 = (($845) + 4)|0; + $849 = $848; + $850 = HEAP32[$849>>2]|0; + $851 = (_bitshift64Ashr(0,($847|0),32)|0); + $852 = tempRet0; + $853 = (___muldi3(($851|0),($852|0),($843|0),($844|0))|0); + $854 = tempRet0; + $855 = (_i64Add(($835|0),($836|0),($853|0),($854|0))|0); + $856 = tempRet0; + $857 = (_bitshift64Shl(($855|0),($856|0),1)|0); + $858 = tempRet0; + $859 = (_i64Add(($857|0),($858|0),($777|0),($778|0))|0); + $860 = tempRet0; + $861 = $106; + $862 = $861; + $863 = HEAP32[$862>>2]|0; + $864 = (($861) + 4)|0; + $865 = $864; + $866 = HEAP32[$865>>2]|0; + $867 = (_bitshift64Ashr(0,($863|0),32)|0); + $868 = tempRet0; + $869 = $557; + $870 = $869; + $871 = HEAP32[$870>>2]|0; + $872 = (($869) + 4)|0; + $873 = $872; + $874 = HEAP32[$873>>2]|0; + $875 = (_bitshift64Ashr(0,($871|0),32)|0); + $876 = tempRet0; + $877 = (___muldi3(($875|0),($876|0),($867|0),($868|0))|0); + $878 = tempRet0; + $879 = (_i64Add(($859|0),($860|0),($877|0),($878|0))|0); + $880 = tempRet0; + $881 = $570; + $882 = $881; + $883 = HEAP32[$882>>2]|0; + $884 = (($881) + 4)|0; + $885 = $884; + $886 = HEAP32[$885>>2]|0; + $887 = (_bitshift64Ashr(0,($883|0),32)|0); + $888 = tempRet0; + $889 = $93; + $890 = $889; + $891 = HEAP32[$890>>2]|0; + $892 = (($889) + 4)|0; + $893 = $892; + $894 = HEAP32[$893>>2]|0; + $895 = (_bitshift64Ashr(0,($891|0),32)|0); + $896 = tempRet0; + $897 = (___muldi3(($895|0),($896|0),($887|0),($888|0))|0); + $898 = tempRet0; + $899 = (_i64Add(($879|0),($880|0),($897|0),($898|0))|0); + $900 = tempRet0; + $901 = $in2; + $902 = $901; + $903 = HEAP32[$902>>2]|0; + $904 = (($901) + 4)|0; + $905 = $904; + $906 = HEAP32[$905>>2]|0; + $907 = (_bitshift64Ashr(0,($903|0),32)|0); + $908 = tempRet0; + $909 = (($in) + 64|0); + $910 = $909; + $911 = $910; + $912 = HEAP32[$911>>2]|0; + $913 = (($910) + 4)|0; + $914 = $913; + $915 = HEAP32[$914>>2]|0; + $916 = (_bitshift64Ashr(0,($912|0),32)|0); + $917 = tempRet0; + $918 = (___muldi3(($916|0),($917|0),($907|0),($908|0))|0); + $919 = tempRet0; + $920 = (_i64Add(($899|0),($900|0),($918|0),($919|0))|0); + $921 = tempRet0; + $922 = (($in2) + 64|0); + $923 = $922; + $924 = $923; + $925 = HEAP32[$924>>2]|0; + $926 = (($923) + 4)|0; + $927 = $926; + $928 = HEAP32[$927>>2]|0; + $929 = (_bitshift64Ashr(0,($925|0),32)|0); + $930 = tempRet0; + $931 = $in; + $932 = $931; + $933 = HEAP32[$932>>2]|0; + $934 = (($931) + 4)|0; + $935 = $934; + $936 = HEAP32[$935>>2]|0; + $937 = (_bitshift64Ashr(0,($933|0),32)|0); + $938 = tempRet0; + $939 = (___muldi3(($937|0),($938|0),($929|0),($930|0))|0); + $940 = tempRet0; + $941 = (_i64Add(($920|0),($921|0),($939|0),($940|0))|0); + $942 = tempRet0; + $943 = (($output) + 64|0); + $944 = $943; + $945 = $944; + HEAP32[$945>>2] = $941; + $946 = (($944) + 4)|0; + $947 = $946; + HEAP32[$947>>2] = $942; + $948 = $298; + $949 = $948; + $950 = HEAP32[$949>>2]|0; + $951 = (($948) + 4)|0; + $952 = $951; + $953 = HEAP32[$952>>2]|0; + $954 = (_bitshift64Ashr(0,($950|0),32)|0); + $955 = tempRet0; + $956 = $410; + $957 = $956; + $958 = HEAP32[$957>>2]|0; + $959 = (($956) + 4)|0; + $960 = $959; + $961 = HEAP32[$960>>2]|0; + $962 = (_bitshift64Ashr(0,($958|0),32)|0); + $963 = tempRet0; + $964 = (___muldi3(($962|0),($963|0),($954|0),($955|0))|0); + $965 = tempRet0; + $966 = $423; + $967 = $966; + $968 = HEAP32[$967>>2]|0; + $969 = (($966) + 4)|0; + $970 = $969; + $971 = HEAP32[$970>>2]|0; + $972 = (_bitshift64Ashr(0,($968|0),32)|0); + $973 = tempRet0; + $974 = $285; + $975 = $974; + $976 = HEAP32[$975>>2]|0; + $977 = (($974) + 4)|0; + $978 = $977; + $979 = HEAP32[$978>>2]|0; + $980 = (_bitshift64Ashr(0,($976|0),32)|0); + $981 = tempRet0; + $982 = (___muldi3(($980|0),($981|0),($972|0),($973|0))|0); + $983 = tempRet0; + $984 = (_i64Add(($982|0),($983|0),($964|0),($965|0))|0); + $985 = tempRet0; + $986 = $191; + $987 = $986; + $988 = HEAP32[$987>>2]|0; + $989 = (($986) + 4)|0; + $990 = $989; + $991 = HEAP32[$990>>2]|0; + $992 = (_bitshift64Ashr(0,($988|0),32)|0); + $993 = tempRet0; + $994 = $557; + $995 = $994; + $996 = HEAP32[$995>>2]|0; + $997 = (($994) + 4)|0; + $998 = $997; + $999 = HEAP32[$998>>2]|0; + $1000 = (_bitshift64Ashr(0,($996|0),32)|0); + $1001 = tempRet0; + $1002 = (___muldi3(($1000|0),($1001|0),($992|0),($993|0))|0); + $1003 = tempRet0; + $1004 = (_i64Add(($984|0),($985|0),($1002|0),($1003|0))|0); + $1005 = tempRet0; + $1006 = $570; + $1007 = $1006; + $1008 = HEAP32[$1007>>2]|0; + $1009 = (($1006) + 4)|0; + $1010 = $1009; + $1011 = HEAP32[$1010>>2]|0; + $1012 = (_bitshift64Ashr(0,($1008|0),32)|0); + $1013 = tempRet0; + $1014 = $178; + $1015 = $1014; + $1016 = HEAP32[$1015>>2]|0; + $1017 = (($1014) + 4)|0; + $1018 = $1017; + $1019 = HEAP32[$1018>>2]|0; + $1020 = (_bitshift64Ashr(0,($1016|0),32)|0); + $1021 = tempRet0; + $1022 = (___muldi3(($1020|0),($1021|0),($1012|0),($1013|0))|0); + $1023 = tempRet0; + $1024 = (_i64Add(($1004|0),($1005|0),($1022|0),($1023|0))|0); + $1025 = tempRet0; + $1026 = $106; + $1027 = $1026; + $1028 = HEAP32[$1027>>2]|0; + $1029 = (($1026) + 4)|0; + $1030 = $1029; + $1031 = HEAP32[$1030>>2]|0; + $1032 = (_bitshift64Ashr(0,($1028|0),32)|0); + $1033 = tempRet0; + $1034 = $722; + $1035 = $1034; + $1036 = HEAP32[$1035>>2]|0; + $1037 = (($1034) + 4)|0; + $1038 = $1037; + $1039 = HEAP32[$1038>>2]|0; + $1040 = (_bitshift64Ashr(0,($1036|0),32)|0); + $1041 = tempRet0; + $1042 = (___muldi3(($1040|0),($1041|0),($1032|0),($1033|0))|0); + $1043 = tempRet0; + $1044 = (_i64Add(($1024|0),($1025|0),($1042|0),($1043|0))|0); + $1045 = tempRet0; + $1046 = $735; + $1047 = $1046; + $1048 = HEAP32[$1047>>2]|0; + $1049 = (($1046) + 4)|0; + $1050 = $1049; + $1051 = HEAP32[$1050>>2]|0; + $1052 = (_bitshift64Ashr(0,($1048|0),32)|0); + $1053 = tempRet0; + $1054 = $93; + $1055 = $1054; + $1056 = HEAP32[$1055>>2]|0; + $1057 = (($1054) + 4)|0; + $1058 = $1057; + $1059 = HEAP32[$1058>>2]|0; + $1060 = (_bitshift64Ashr(0,($1056|0),32)|0); + $1061 = tempRet0; + $1062 = (___muldi3(($1060|0),($1061|0),($1052|0),($1053|0))|0); + $1063 = tempRet0; + $1064 = (_i64Add(($1044|0),($1045|0),($1062|0),($1063|0))|0); + $1065 = tempRet0; + $1066 = $41; + $1067 = $1066; + $1068 = HEAP32[$1067>>2]|0; + $1069 = (($1066) + 4)|0; + $1070 = $1069; + $1071 = HEAP32[$1070>>2]|0; + $1072 = (_bitshift64Ashr(0,($1068|0),32)|0); + $1073 = tempRet0; + $1074 = $909; + $1075 = $1074; + $1076 = HEAP32[$1075>>2]|0; + $1077 = (($1074) + 4)|0; + $1078 = $1077; + $1079 = HEAP32[$1078>>2]|0; + $1080 = (_bitshift64Ashr(0,($1076|0),32)|0); + $1081 = tempRet0; + $1082 = (___muldi3(($1080|0),($1081|0),($1072|0),($1073|0))|0); + $1083 = tempRet0; + $1084 = (_i64Add(($1064|0),($1065|0),($1082|0),($1083|0))|0); + $1085 = tempRet0; + $1086 = $922; + $1087 = $1086; + $1088 = HEAP32[$1087>>2]|0; + $1089 = (($1086) + 4)|0; + $1090 = $1089; + $1091 = HEAP32[$1090>>2]|0; + $1092 = (_bitshift64Ashr(0,($1088|0),32)|0); + $1093 = tempRet0; + $1094 = $30; + $1095 = $1094; + $1096 = HEAP32[$1095>>2]|0; + $1097 = (($1094) + 4)|0; + $1098 = $1097; + $1099 = HEAP32[$1098>>2]|0; + $1100 = (_bitshift64Ashr(0,($1096|0),32)|0); + $1101 = tempRet0; + $1102 = (___muldi3(($1100|0),($1101|0),($1092|0),($1093|0))|0); + $1103 = tempRet0; + $1104 = (_i64Add(($1084|0),($1085|0),($1102|0),($1103|0))|0); + $1105 = tempRet0; + $1106 = $in2; + $1107 = $1106; + $1108 = HEAP32[$1107>>2]|0; + $1109 = (($1106) + 4)|0; + $1110 = $1109; + $1111 = HEAP32[$1110>>2]|0; + $1112 = (_bitshift64Ashr(0,($1108|0),32)|0); + $1113 = tempRet0; + $1114 = (($in) + 72|0); + $1115 = $1114; + $1116 = $1115; + $1117 = HEAP32[$1116>>2]|0; + $1118 = (($1115) + 4)|0; + $1119 = $1118; + $1120 = HEAP32[$1119>>2]|0; + $1121 = (_bitshift64Ashr(0,($1117|0),32)|0); + $1122 = tempRet0; + $1123 = (___muldi3(($1121|0),($1122|0),($1112|0),($1113|0))|0); + $1124 = tempRet0; + $1125 = (_i64Add(($1104|0),($1105|0),($1123|0),($1124|0))|0); + $1126 = tempRet0; + $1127 = (($in2) + 72|0); + $1128 = $1127; + $1129 = $1128; + $1130 = HEAP32[$1129>>2]|0; + $1131 = (($1128) + 4)|0; + $1132 = $1131; + $1133 = HEAP32[$1132>>2]|0; + $1134 = (_bitshift64Ashr(0,($1130|0),32)|0); + $1135 = tempRet0; + $1136 = $in; + $1137 = $1136; + $1138 = HEAP32[$1137>>2]|0; + $1139 = (($1136) + 4)|0; + $1140 = $1139; + $1141 = HEAP32[$1140>>2]|0; + $1142 = (_bitshift64Ashr(0,($1138|0),32)|0); + $1143 = tempRet0; + $1144 = (___muldi3(($1142|0),($1143|0),($1134|0),($1135|0))|0); + $1145 = tempRet0; + $1146 = (_i64Add(($1125|0),($1126|0),($1144|0),($1145|0))|0); + $1147 = tempRet0; + $1148 = (($output) + 72|0); + $1149 = $1148; + $1150 = $1149; + HEAP32[$1150>>2] = $1146; + $1151 = (($1149) + 4)|0; + $1152 = $1151; + HEAP32[$1152>>2] = $1147; + $1153 = $423; + $1154 = $1153; + $1155 = HEAP32[$1154>>2]|0; + $1156 = (($1153) + 4)|0; + $1157 = $1156; + $1158 = HEAP32[$1157>>2]|0; + $1159 = (_bitshift64Ashr(0,($1155|0),32)|0); + $1160 = tempRet0; + $1161 = $410; + $1162 = $1161; + $1163 = HEAP32[$1162>>2]|0; + $1164 = (($1161) + 4)|0; + $1165 = $1164; + $1166 = HEAP32[$1165>>2]|0; + $1167 = (_bitshift64Ashr(0,($1163|0),32)|0); + $1168 = tempRet0; + $1169 = (___muldi3(($1167|0),($1168|0),($1159|0),($1160|0))|0); + $1170 = tempRet0; + $1171 = $191; + $1172 = $1171; + $1173 = HEAP32[$1172>>2]|0; + $1174 = (($1171) + 4)|0; + $1175 = $1174; + $1176 = HEAP32[$1175>>2]|0; + $1177 = (_bitshift64Ashr(0,($1173|0),32)|0); + $1178 = tempRet0; + $1179 = $722; + $1180 = $1179; + $1181 = HEAP32[$1180>>2]|0; + $1182 = (($1179) + 4)|0; + $1183 = $1182; + $1184 = HEAP32[$1183>>2]|0; + $1185 = (_bitshift64Ashr(0,($1181|0),32)|0); + $1186 = tempRet0; + $1187 = (___muldi3(($1185|0),($1186|0),($1177|0),($1178|0))|0); + $1188 = tempRet0; + $1189 = (_i64Add(($1187|0),($1188|0),($1169|0),($1170|0))|0); + $1190 = tempRet0; + $1191 = $735; + $1192 = $1191; + $1193 = HEAP32[$1192>>2]|0; + $1194 = (($1191) + 4)|0; + $1195 = $1194; + $1196 = HEAP32[$1195>>2]|0; + $1197 = (_bitshift64Ashr(0,($1193|0),32)|0); + $1198 = tempRet0; + $1199 = $178; + $1200 = $1199; + $1201 = HEAP32[$1200>>2]|0; + $1202 = (($1199) + 4)|0; + $1203 = $1202; + $1204 = HEAP32[$1203>>2]|0; + $1205 = (_bitshift64Ashr(0,($1201|0),32)|0); + $1206 = tempRet0; + $1207 = (___muldi3(($1205|0),($1206|0),($1197|0),($1198|0))|0); + $1208 = tempRet0; + $1209 = (_i64Add(($1189|0),($1190|0),($1207|0),($1208|0))|0); + $1210 = tempRet0; + $1211 = $41; + $1212 = $1211; + $1213 = HEAP32[$1212>>2]|0; + $1214 = (($1211) + 4)|0; + $1215 = $1214; + $1216 = HEAP32[$1215>>2]|0; + $1217 = (_bitshift64Ashr(0,($1213|0),32)|0); + $1218 = tempRet0; + $1219 = $1114; + $1220 = $1219; + $1221 = HEAP32[$1220>>2]|0; + $1222 = (($1219) + 4)|0; + $1223 = $1222; + $1224 = HEAP32[$1223>>2]|0; + $1225 = (_bitshift64Ashr(0,($1221|0),32)|0); + $1226 = tempRet0; + $1227 = (___muldi3(($1225|0),($1226|0),($1217|0),($1218|0))|0); + $1228 = tempRet0; + $1229 = (_i64Add(($1209|0),($1210|0),($1227|0),($1228|0))|0); + $1230 = tempRet0; + $1231 = $1127; + $1232 = $1231; + $1233 = HEAP32[$1232>>2]|0; + $1234 = (($1231) + 4)|0; + $1235 = $1234; + $1236 = HEAP32[$1235>>2]|0; + $1237 = (_bitshift64Ashr(0,($1233|0),32)|0); + $1238 = tempRet0; + $1239 = $30; + $1240 = $1239; + $1241 = HEAP32[$1240>>2]|0; + $1242 = (($1239) + 4)|0; + $1243 = $1242; + $1244 = HEAP32[$1243>>2]|0; + $1245 = (_bitshift64Ashr(0,($1241|0),32)|0); + $1246 = tempRet0; + $1247 = (___muldi3(($1245|0),($1246|0),($1237|0),($1238|0))|0); + $1248 = tempRet0; + $1249 = (_i64Add(($1229|0),($1230|0),($1247|0),($1248|0))|0); + $1250 = tempRet0; + $1251 = (_bitshift64Shl(($1249|0),($1250|0),1)|0); + $1252 = tempRet0; + $1253 = $298; + $1254 = $1253; + $1255 = HEAP32[$1254>>2]|0; + $1256 = (($1253) + 4)|0; + $1257 = $1256; + $1258 = HEAP32[$1257>>2]|0; + $1259 = (_bitshift64Ashr(0,($1255|0),32)|0); + $1260 = tempRet0; + $1261 = $557; + $1262 = $1261; + $1263 = HEAP32[$1262>>2]|0; + $1264 = (($1261) + 4)|0; + $1265 = $1264; + $1266 = HEAP32[$1265>>2]|0; + $1267 = (_bitshift64Ashr(0,($1263|0),32)|0); + $1268 = tempRet0; + $1269 = (___muldi3(($1267|0),($1268|0),($1259|0),($1260|0))|0); + $1270 = tempRet0; + $1271 = (_i64Add(($1251|0),($1252|0),($1269|0),($1270|0))|0); + $1272 = tempRet0; + $1273 = $570; + $1274 = $1273; + $1275 = HEAP32[$1274>>2]|0; + $1276 = (($1273) + 4)|0; + $1277 = $1276; + $1278 = HEAP32[$1277>>2]|0; + $1279 = (_bitshift64Ashr(0,($1275|0),32)|0); + $1280 = tempRet0; + $1281 = $285; + $1282 = $1281; + $1283 = HEAP32[$1282>>2]|0; + $1284 = (($1281) + 4)|0; + $1285 = $1284; + $1286 = HEAP32[$1285>>2]|0; + $1287 = (_bitshift64Ashr(0,($1283|0),32)|0); + $1288 = tempRet0; + $1289 = (___muldi3(($1287|0),($1288|0),($1279|0),($1280|0))|0); + $1290 = tempRet0; + $1291 = (_i64Add(($1271|0),($1272|0),($1289|0),($1290|0))|0); + $1292 = tempRet0; + $1293 = $106; + $1294 = $1293; + $1295 = HEAP32[$1294>>2]|0; + $1296 = (($1293) + 4)|0; + $1297 = $1296; + $1298 = HEAP32[$1297>>2]|0; + $1299 = (_bitshift64Ashr(0,($1295|0),32)|0); + $1300 = tempRet0; + $1301 = $909; + $1302 = $1301; + $1303 = HEAP32[$1302>>2]|0; + $1304 = (($1301) + 4)|0; + $1305 = $1304; + $1306 = HEAP32[$1305>>2]|0; + $1307 = (_bitshift64Ashr(0,($1303|0),32)|0); + $1308 = tempRet0; + $1309 = (___muldi3(($1307|0),($1308|0),($1299|0),($1300|0))|0); + $1310 = tempRet0; + $1311 = (_i64Add(($1291|0),($1292|0),($1309|0),($1310|0))|0); + $1312 = tempRet0; + $1313 = $922; + $1314 = $1313; + $1315 = HEAP32[$1314>>2]|0; + $1316 = (($1313) + 4)|0; + $1317 = $1316; + $1318 = HEAP32[$1317>>2]|0; + $1319 = (_bitshift64Ashr(0,($1315|0),32)|0); + $1320 = tempRet0; + $1321 = $93; + $1322 = $1321; + $1323 = HEAP32[$1322>>2]|0; + $1324 = (($1321) + 4)|0; + $1325 = $1324; + $1326 = HEAP32[$1325>>2]|0; + $1327 = (_bitshift64Ashr(0,($1323|0),32)|0); + $1328 = tempRet0; + $1329 = (___muldi3(($1327|0),($1328|0),($1319|0),($1320|0))|0); + $1330 = tempRet0; + $1331 = (_i64Add(($1311|0),($1312|0),($1329|0),($1330|0))|0); + $1332 = tempRet0; + $1333 = (($output) + 80|0); + $1334 = $1333; + $1335 = $1334; + HEAP32[$1335>>2] = $1331; + $1336 = (($1334) + 4)|0; + $1337 = $1336; + HEAP32[$1337>>2] = $1332; + $1338 = $423; + $1339 = $1338; + $1340 = HEAP32[$1339>>2]|0; + $1341 = (($1338) + 4)|0; + $1342 = $1341; + $1343 = HEAP32[$1342>>2]|0; + $1344 = (_bitshift64Ashr(0,($1340|0),32)|0); + $1345 = tempRet0; + $1346 = $557; + $1347 = $1346; + $1348 = HEAP32[$1347>>2]|0; + $1349 = (($1346) + 4)|0; + $1350 = $1349; + $1351 = HEAP32[$1350>>2]|0; + $1352 = (_bitshift64Ashr(0,($1348|0),32)|0); + $1353 = tempRet0; + $1354 = (___muldi3(($1352|0),($1353|0),($1344|0),($1345|0))|0); + $1355 = tempRet0; + $1356 = $570; + $1357 = $1356; + $1358 = HEAP32[$1357>>2]|0; + $1359 = (($1356) + 4)|0; + $1360 = $1359; + $1361 = HEAP32[$1360>>2]|0; + $1362 = (_bitshift64Ashr(0,($1358|0),32)|0); + $1363 = tempRet0; + $1364 = $410; + $1365 = $1364; + $1366 = HEAP32[$1365>>2]|0; + $1367 = (($1364) + 4)|0; + $1368 = $1367; + $1369 = HEAP32[$1368>>2]|0; + $1370 = (_bitshift64Ashr(0,($1366|0),32)|0); + $1371 = tempRet0; + $1372 = (___muldi3(($1370|0),($1371|0),($1362|0),($1363|0))|0); + $1373 = tempRet0; + $1374 = (_i64Add(($1372|0),($1373|0),($1354|0),($1355|0))|0); + $1375 = tempRet0; + $1376 = $298; + $1377 = $1376; + $1378 = HEAP32[$1377>>2]|0; + $1379 = (($1376) + 4)|0; + $1380 = $1379; + $1381 = HEAP32[$1380>>2]|0; + $1382 = (_bitshift64Ashr(0,($1378|0),32)|0); + $1383 = tempRet0; + $1384 = $722; + $1385 = $1384; + $1386 = HEAP32[$1385>>2]|0; + $1387 = (($1384) + 4)|0; + $1388 = $1387; + $1389 = HEAP32[$1388>>2]|0; + $1390 = (_bitshift64Ashr(0,($1386|0),32)|0); + $1391 = tempRet0; + $1392 = (___muldi3(($1390|0),($1391|0),($1382|0),($1383|0))|0); + $1393 = tempRet0; + $1394 = (_i64Add(($1374|0),($1375|0),($1392|0),($1393|0))|0); + $1395 = tempRet0; + $1396 = $735; + $1397 = $1396; + $1398 = HEAP32[$1397>>2]|0; + $1399 = (($1396) + 4)|0; + $1400 = $1399; + $1401 = HEAP32[$1400>>2]|0; + $1402 = (_bitshift64Ashr(0,($1398|0),32)|0); + $1403 = tempRet0; + $1404 = $285; + $1405 = $1404; + $1406 = HEAP32[$1405>>2]|0; + $1407 = (($1404) + 4)|0; + $1408 = $1407; + $1409 = HEAP32[$1408>>2]|0; + $1410 = (_bitshift64Ashr(0,($1406|0),32)|0); + $1411 = tempRet0; + $1412 = (___muldi3(($1410|0),($1411|0),($1402|0),($1403|0))|0); + $1413 = tempRet0; + $1414 = (_i64Add(($1394|0),($1395|0),($1412|0),($1413|0))|0); + $1415 = tempRet0; + $1416 = $191; + $1417 = $1416; + $1418 = HEAP32[$1417>>2]|0; + $1419 = (($1416) + 4)|0; + $1420 = $1419; + $1421 = HEAP32[$1420>>2]|0; + $1422 = (_bitshift64Ashr(0,($1418|0),32)|0); + $1423 = tempRet0; + $1424 = $909; + $1425 = $1424; + $1426 = HEAP32[$1425>>2]|0; + $1427 = (($1424) + 4)|0; + $1428 = $1427; + $1429 = HEAP32[$1428>>2]|0; + $1430 = (_bitshift64Ashr(0,($1426|0),32)|0); + $1431 = tempRet0; + $1432 = (___muldi3(($1430|0),($1431|0),($1422|0),($1423|0))|0); + $1433 = tempRet0; + $1434 = (_i64Add(($1414|0),($1415|0),($1432|0),($1433|0))|0); + $1435 = tempRet0; + $1436 = $922; + $1437 = $1436; + $1438 = HEAP32[$1437>>2]|0; + $1439 = (($1436) + 4)|0; + $1440 = $1439; + $1441 = HEAP32[$1440>>2]|0; + $1442 = (_bitshift64Ashr(0,($1438|0),32)|0); + $1443 = tempRet0; + $1444 = $178; + $1445 = $1444; + $1446 = HEAP32[$1445>>2]|0; + $1447 = (($1444) + 4)|0; + $1448 = $1447; + $1449 = HEAP32[$1448>>2]|0; + $1450 = (_bitshift64Ashr(0,($1446|0),32)|0); + $1451 = tempRet0; + $1452 = (___muldi3(($1450|0),($1451|0),($1442|0),($1443|0))|0); + $1453 = tempRet0; + $1454 = (_i64Add(($1434|0),($1435|0),($1452|0),($1453|0))|0); + $1455 = tempRet0; + $1456 = $106; + $1457 = $1456; + $1458 = HEAP32[$1457>>2]|0; + $1459 = (($1456) + 4)|0; + $1460 = $1459; + $1461 = HEAP32[$1460>>2]|0; + $1462 = (_bitshift64Ashr(0,($1458|0),32)|0); + $1463 = tempRet0; + $1464 = $1114; + $1465 = $1464; + $1466 = HEAP32[$1465>>2]|0; + $1467 = (($1464) + 4)|0; + $1468 = $1467; + $1469 = HEAP32[$1468>>2]|0; + $1470 = (_bitshift64Ashr(0,($1466|0),32)|0); + $1471 = tempRet0; + $1472 = (___muldi3(($1470|0),($1471|0),($1462|0),($1463|0))|0); + $1473 = tempRet0; + $1474 = (_i64Add(($1454|0),($1455|0),($1472|0),($1473|0))|0); + $1475 = tempRet0; + $1476 = $1127; + $1477 = $1476; + $1478 = HEAP32[$1477>>2]|0; + $1479 = (($1476) + 4)|0; + $1480 = $1479; + $1481 = HEAP32[$1480>>2]|0; + $1482 = (_bitshift64Ashr(0,($1478|0),32)|0); + $1483 = tempRet0; + $1484 = $93; + $1485 = $1484; + $1486 = HEAP32[$1485>>2]|0; + $1487 = (($1484) + 4)|0; + $1488 = $1487; + $1489 = HEAP32[$1488>>2]|0; + $1490 = (_bitshift64Ashr(0,($1486|0),32)|0); + $1491 = tempRet0; + $1492 = (___muldi3(($1490|0),($1491|0),($1482|0),($1483|0))|0); + $1493 = tempRet0; + $1494 = (_i64Add(($1474|0),($1475|0),($1492|0),($1493|0))|0); + $1495 = tempRet0; + $1496 = (($output) + 88|0); + $1497 = $1496; + $1498 = $1497; + HEAP32[$1498>>2] = $1494; + $1499 = (($1497) + 4)|0; + $1500 = $1499; + HEAP32[$1500>>2] = $1495; + $1501 = $570; + $1502 = $1501; + $1503 = HEAP32[$1502>>2]|0; + $1504 = (($1501) + 4)|0; + $1505 = $1504; + $1506 = HEAP32[$1505>>2]|0; + $1507 = (_bitshift64Ashr(0,($1503|0),32)|0); + $1508 = tempRet0; + $1509 = $557; + $1510 = $1509; + $1511 = HEAP32[$1510>>2]|0; + $1512 = (($1509) + 4)|0; + $1513 = $1512; + $1514 = HEAP32[$1513>>2]|0; + $1515 = (_bitshift64Ashr(0,($1511|0),32)|0); + $1516 = tempRet0; + $1517 = (___muldi3(($1515|0),($1516|0),($1507|0),($1508|0))|0); + $1518 = tempRet0; + $1519 = $423; + $1520 = $1519; + $1521 = HEAP32[$1520>>2]|0; + $1522 = (($1519) + 4)|0; + $1523 = $1522; + $1524 = HEAP32[$1523>>2]|0; + $1525 = (_bitshift64Ashr(0,($1521|0),32)|0); + $1526 = tempRet0; + $1527 = $722; + $1528 = $1527; + $1529 = HEAP32[$1528>>2]|0; + $1530 = (($1527) + 4)|0; + $1531 = $1530; + $1532 = HEAP32[$1531>>2]|0; + $1533 = (_bitshift64Ashr(0,($1529|0),32)|0); + $1534 = tempRet0; + $1535 = (___muldi3(($1533|0),($1534|0),($1525|0),($1526|0))|0); + $1536 = tempRet0; + $1537 = $735; + $1538 = $1537; + $1539 = HEAP32[$1538>>2]|0; + $1540 = (($1537) + 4)|0; + $1541 = $1540; + $1542 = HEAP32[$1541>>2]|0; + $1543 = (_bitshift64Ashr(0,($1539|0),32)|0); + $1544 = tempRet0; + $1545 = $410; + $1546 = $1545; + $1547 = HEAP32[$1546>>2]|0; + $1548 = (($1545) + 4)|0; + $1549 = $1548; + $1550 = HEAP32[$1549>>2]|0; + $1551 = (_bitshift64Ashr(0,($1547|0),32)|0); + $1552 = tempRet0; + $1553 = (___muldi3(($1551|0),($1552|0),($1543|0),($1544|0))|0); + $1554 = tempRet0; + $1555 = (_i64Add(($1553|0),($1554|0),($1535|0),($1536|0))|0); + $1556 = tempRet0; + $1557 = $191; + $1558 = $1557; + $1559 = HEAP32[$1558>>2]|0; + $1560 = (($1557) + 4)|0; + $1561 = $1560; + $1562 = HEAP32[$1561>>2]|0; + $1563 = (_bitshift64Ashr(0,($1559|0),32)|0); + $1564 = tempRet0; + $1565 = $1114; + $1566 = $1565; + $1567 = HEAP32[$1566>>2]|0; + $1568 = (($1565) + 4)|0; + $1569 = $1568; + $1570 = HEAP32[$1569>>2]|0; + $1571 = (_bitshift64Ashr(0,($1567|0),32)|0); + $1572 = tempRet0; + $1573 = (___muldi3(($1571|0),($1572|0),($1563|0),($1564|0))|0); + $1574 = tempRet0; + $1575 = (_i64Add(($1555|0),($1556|0),($1573|0),($1574|0))|0); + $1576 = tempRet0; + $1577 = $1127; + $1578 = $1577; + $1579 = HEAP32[$1578>>2]|0; + $1580 = (($1577) + 4)|0; + $1581 = $1580; + $1582 = HEAP32[$1581>>2]|0; + $1583 = (_bitshift64Ashr(0,($1579|0),32)|0); + $1584 = tempRet0; + $1585 = $178; + $1586 = $1585; + $1587 = HEAP32[$1586>>2]|0; + $1588 = (($1585) + 4)|0; + $1589 = $1588; + $1590 = HEAP32[$1589>>2]|0; + $1591 = (_bitshift64Ashr(0,($1587|0),32)|0); + $1592 = tempRet0; + $1593 = (___muldi3(($1591|0),($1592|0),($1583|0),($1584|0))|0); + $1594 = tempRet0; + $1595 = (_i64Add(($1575|0),($1576|0),($1593|0),($1594|0))|0); + $1596 = tempRet0; + $1597 = (_bitshift64Shl(($1595|0),($1596|0),1)|0); + $1598 = tempRet0; + $1599 = (_i64Add(($1597|0),($1598|0),($1517|0),($1518|0))|0); + $1600 = tempRet0; + $1601 = $298; + $1602 = $1601; + $1603 = HEAP32[$1602>>2]|0; + $1604 = (($1601) + 4)|0; + $1605 = $1604; + $1606 = HEAP32[$1605>>2]|0; + $1607 = (_bitshift64Ashr(0,($1603|0),32)|0); + $1608 = tempRet0; + $1609 = $909; + $1610 = $1609; + $1611 = HEAP32[$1610>>2]|0; + $1612 = (($1609) + 4)|0; + $1613 = $1612; + $1614 = HEAP32[$1613>>2]|0; + $1615 = (_bitshift64Ashr(0,($1611|0),32)|0); + $1616 = tempRet0; + $1617 = (___muldi3(($1615|0),($1616|0),($1607|0),($1608|0))|0); + $1618 = tempRet0; + $1619 = (_i64Add(($1599|0),($1600|0),($1617|0),($1618|0))|0); + $1620 = tempRet0; + $1621 = $922; + $1622 = $1621; + $1623 = HEAP32[$1622>>2]|0; + $1624 = (($1621) + 4)|0; + $1625 = $1624; + $1626 = HEAP32[$1625>>2]|0; + $1627 = (_bitshift64Ashr(0,($1623|0),32)|0); + $1628 = tempRet0; + $1629 = $285; + $1630 = $1629; + $1631 = HEAP32[$1630>>2]|0; + $1632 = (($1629) + 4)|0; + $1633 = $1632; + $1634 = HEAP32[$1633>>2]|0; + $1635 = (_bitshift64Ashr(0,($1631|0),32)|0); + $1636 = tempRet0; + $1637 = (___muldi3(($1635|0),($1636|0),($1627|0),($1628|0))|0); + $1638 = tempRet0; + $1639 = (_i64Add(($1619|0),($1620|0),($1637|0),($1638|0))|0); + $1640 = tempRet0; + $1641 = (($output) + 96|0); + $1642 = $1641; + $1643 = $1642; + HEAP32[$1643>>2] = $1639; + $1644 = (($1642) + 4)|0; + $1645 = $1644; + HEAP32[$1645>>2] = $1640; + $1646 = $570; + $1647 = $1646; + $1648 = HEAP32[$1647>>2]|0; + $1649 = (($1646) + 4)|0; + $1650 = $1649; + $1651 = HEAP32[$1650>>2]|0; + $1652 = (_bitshift64Ashr(0,($1648|0),32)|0); + $1653 = tempRet0; + $1654 = $722; + $1655 = $1654; + $1656 = HEAP32[$1655>>2]|0; + $1657 = (($1654) + 4)|0; + $1658 = $1657; + $1659 = HEAP32[$1658>>2]|0; + $1660 = (_bitshift64Ashr(0,($1656|0),32)|0); + $1661 = tempRet0; + $1662 = (___muldi3(($1660|0),($1661|0),($1652|0),($1653|0))|0); + $1663 = tempRet0; + $1664 = $735; + $1665 = $1664; + $1666 = HEAP32[$1665>>2]|0; + $1667 = (($1664) + 4)|0; + $1668 = $1667; + $1669 = HEAP32[$1668>>2]|0; + $1670 = (_bitshift64Ashr(0,($1666|0),32)|0); + $1671 = tempRet0; + $1672 = $557; + $1673 = $1672; + $1674 = HEAP32[$1673>>2]|0; + $1675 = (($1672) + 4)|0; + $1676 = $1675; + $1677 = HEAP32[$1676>>2]|0; + $1678 = (_bitshift64Ashr(0,($1674|0),32)|0); + $1679 = tempRet0; + $1680 = (___muldi3(($1678|0),($1679|0),($1670|0),($1671|0))|0); + $1681 = tempRet0; + $1682 = (_i64Add(($1680|0),($1681|0),($1662|0),($1663|0))|0); + $1683 = tempRet0; + $1684 = $423; + $1685 = $1684; + $1686 = HEAP32[$1685>>2]|0; + $1687 = (($1684) + 4)|0; + $1688 = $1687; + $1689 = HEAP32[$1688>>2]|0; + $1690 = (_bitshift64Ashr(0,($1686|0),32)|0); + $1691 = tempRet0; + $1692 = $909; + $1693 = $1692; + $1694 = HEAP32[$1693>>2]|0; + $1695 = (($1692) + 4)|0; + $1696 = $1695; + $1697 = HEAP32[$1696>>2]|0; + $1698 = (_bitshift64Ashr(0,($1694|0),32)|0); + $1699 = tempRet0; + $1700 = (___muldi3(($1698|0),($1699|0),($1690|0),($1691|0))|0); + $1701 = tempRet0; + $1702 = (_i64Add(($1682|0),($1683|0),($1700|0),($1701|0))|0); + $1703 = tempRet0; + $1704 = $922; + $1705 = $1704; + $1706 = HEAP32[$1705>>2]|0; + $1707 = (($1704) + 4)|0; + $1708 = $1707; + $1709 = HEAP32[$1708>>2]|0; + $1710 = (_bitshift64Ashr(0,($1706|0),32)|0); + $1711 = tempRet0; + $1712 = $410; + $1713 = $1712; + $1714 = HEAP32[$1713>>2]|0; + $1715 = (($1712) + 4)|0; + $1716 = $1715; + $1717 = HEAP32[$1716>>2]|0; + $1718 = (_bitshift64Ashr(0,($1714|0),32)|0); + $1719 = tempRet0; + $1720 = (___muldi3(($1718|0),($1719|0),($1710|0),($1711|0))|0); + $1721 = tempRet0; + $1722 = (_i64Add(($1702|0),($1703|0),($1720|0),($1721|0))|0); + $1723 = tempRet0; + $1724 = $298; + $1725 = $1724; + $1726 = HEAP32[$1725>>2]|0; + $1727 = (($1724) + 4)|0; + $1728 = $1727; + $1729 = HEAP32[$1728>>2]|0; + $1730 = (_bitshift64Ashr(0,($1726|0),32)|0); + $1731 = tempRet0; + $1732 = $1114; + $1733 = $1732; + $1734 = HEAP32[$1733>>2]|0; + $1735 = (($1732) + 4)|0; + $1736 = $1735; + $1737 = HEAP32[$1736>>2]|0; + $1738 = (_bitshift64Ashr(0,($1734|0),32)|0); + $1739 = tempRet0; + $1740 = (___muldi3(($1738|0),($1739|0),($1730|0),($1731|0))|0); + $1741 = tempRet0; + $1742 = (_i64Add(($1722|0),($1723|0),($1740|0),($1741|0))|0); + $1743 = tempRet0; + $1744 = $1127; + $1745 = $1744; + $1746 = HEAP32[$1745>>2]|0; + $1747 = (($1744) + 4)|0; + $1748 = $1747; + $1749 = HEAP32[$1748>>2]|0; + $1750 = (_bitshift64Ashr(0,($1746|0),32)|0); + $1751 = tempRet0; + $1752 = $285; + $1753 = $1752; + $1754 = HEAP32[$1753>>2]|0; + $1755 = (($1752) + 4)|0; + $1756 = $1755; + $1757 = HEAP32[$1756>>2]|0; + $1758 = (_bitshift64Ashr(0,($1754|0),32)|0); + $1759 = tempRet0; + $1760 = (___muldi3(($1758|0),($1759|0),($1750|0),($1751|0))|0); + $1761 = tempRet0; + $1762 = (_i64Add(($1742|0),($1743|0),($1760|0),($1761|0))|0); + $1763 = tempRet0; + $1764 = (($output) + 104|0); + $1765 = $1764; + $1766 = $1765; + HEAP32[$1766>>2] = $1762; + $1767 = (($1765) + 4)|0; + $1768 = $1767; + HEAP32[$1768>>2] = $1763; + $1769 = $735; + $1770 = $1769; + $1771 = HEAP32[$1770>>2]|0; + $1772 = (($1769) + 4)|0; + $1773 = $1772; + $1774 = HEAP32[$1773>>2]|0; + $1775 = (_bitshift64Ashr(0,($1771|0),32)|0); + $1776 = tempRet0; + $1777 = $722; + $1778 = $1777; + $1779 = HEAP32[$1778>>2]|0; + $1780 = (($1777) + 4)|0; + $1781 = $1780; + $1782 = HEAP32[$1781>>2]|0; + $1783 = (_bitshift64Ashr(0,($1779|0),32)|0); + $1784 = tempRet0; + $1785 = (___muldi3(($1783|0),($1784|0),($1775|0),($1776|0))|0); + $1786 = tempRet0; + $1787 = $423; + $1788 = $1787; + $1789 = HEAP32[$1788>>2]|0; + $1790 = (($1787) + 4)|0; + $1791 = $1790; + $1792 = HEAP32[$1791>>2]|0; + $1793 = (_bitshift64Ashr(0,($1789|0),32)|0); + $1794 = tempRet0; + $1795 = $1114; + $1796 = $1795; + $1797 = HEAP32[$1796>>2]|0; + $1798 = (($1795) + 4)|0; + $1799 = $1798; + $1800 = HEAP32[$1799>>2]|0; + $1801 = (_bitshift64Ashr(0,($1797|0),32)|0); + $1802 = tempRet0; + $1803 = (___muldi3(($1801|0),($1802|0),($1793|0),($1794|0))|0); + $1804 = tempRet0; + $1805 = (_i64Add(($1803|0),($1804|0),($1785|0),($1786|0))|0); + $1806 = tempRet0; + $1807 = $1127; + $1808 = $1807; + $1809 = HEAP32[$1808>>2]|0; + $1810 = (($1807) + 4)|0; + $1811 = $1810; + $1812 = HEAP32[$1811>>2]|0; + $1813 = (_bitshift64Ashr(0,($1809|0),32)|0); + $1814 = tempRet0; + $1815 = $410; + $1816 = $1815; + $1817 = HEAP32[$1816>>2]|0; + $1818 = (($1815) + 4)|0; + $1819 = $1818; + $1820 = HEAP32[$1819>>2]|0; + $1821 = (_bitshift64Ashr(0,($1817|0),32)|0); + $1822 = tempRet0; + $1823 = (___muldi3(($1821|0),($1822|0),($1813|0),($1814|0))|0); + $1824 = tempRet0; + $1825 = (_i64Add(($1805|0),($1806|0),($1823|0),($1824|0))|0); + $1826 = tempRet0; + $1827 = (_bitshift64Shl(($1825|0),($1826|0),1)|0); + $1828 = tempRet0; + $1829 = $570; + $1830 = $1829; + $1831 = HEAP32[$1830>>2]|0; + $1832 = (($1829) + 4)|0; + $1833 = $1832; + $1834 = HEAP32[$1833>>2]|0; + $1835 = (_bitshift64Ashr(0,($1831|0),32)|0); + $1836 = tempRet0; + $1837 = $909; + $1838 = $1837; + $1839 = HEAP32[$1838>>2]|0; + $1840 = (($1837) + 4)|0; + $1841 = $1840; + $1842 = HEAP32[$1841>>2]|0; + $1843 = (_bitshift64Ashr(0,($1839|0),32)|0); + $1844 = tempRet0; + $1845 = (___muldi3(($1843|0),($1844|0),($1835|0),($1836|0))|0); + $1846 = tempRet0; + $1847 = (_i64Add(($1827|0),($1828|0),($1845|0),($1846|0))|0); + $1848 = tempRet0; + $1849 = $922; + $1850 = $1849; + $1851 = HEAP32[$1850>>2]|0; + $1852 = (($1849) + 4)|0; + $1853 = $1852; + $1854 = HEAP32[$1853>>2]|0; + $1855 = (_bitshift64Ashr(0,($1851|0),32)|0); + $1856 = tempRet0; + $1857 = $557; + $1858 = $1857; + $1859 = HEAP32[$1858>>2]|0; + $1860 = (($1857) + 4)|0; + $1861 = $1860; + $1862 = HEAP32[$1861>>2]|0; + $1863 = (_bitshift64Ashr(0,($1859|0),32)|0); + $1864 = tempRet0; + $1865 = (___muldi3(($1863|0),($1864|0),($1855|0),($1856|0))|0); + $1866 = tempRet0; + $1867 = (_i64Add(($1847|0),($1848|0),($1865|0),($1866|0))|0); + $1868 = tempRet0; + $1869 = (($output) + 112|0); + $1870 = $1869; + $1871 = $1870; + HEAP32[$1871>>2] = $1867; + $1872 = (($1870) + 4)|0; + $1873 = $1872; + HEAP32[$1873>>2] = $1868; + $1874 = $735; + $1875 = $1874; + $1876 = HEAP32[$1875>>2]|0; + $1877 = (($1874) + 4)|0; + $1878 = $1877; + $1879 = HEAP32[$1878>>2]|0; + $1880 = (_bitshift64Ashr(0,($1876|0),32)|0); + $1881 = tempRet0; + $1882 = $909; + $1883 = $1882; + $1884 = HEAP32[$1883>>2]|0; + $1885 = (($1882) + 4)|0; + $1886 = $1885; + $1887 = HEAP32[$1886>>2]|0; + $1888 = (_bitshift64Ashr(0,($1884|0),32)|0); + $1889 = tempRet0; + $1890 = (___muldi3(($1888|0),($1889|0),($1880|0),($1881|0))|0); + $1891 = tempRet0; + $1892 = $922; + $1893 = $1892; + $1894 = HEAP32[$1893>>2]|0; + $1895 = (($1892) + 4)|0; + $1896 = $1895; + $1897 = HEAP32[$1896>>2]|0; + $1898 = (_bitshift64Ashr(0,($1894|0),32)|0); + $1899 = tempRet0; + $1900 = $722; + $1901 = $1900; + $1902 = HEAP32[$1901>>2]|0; + $1903 = (($1900) + 4)|0; + $1904 = $1903; + $1905 = HEAP32[$1904>>2]|0; + $1906 = (_bitshift64Ashr(0,($1902|0),32)|0); + $1907 = tempRet0; + $1908 = (___muldi3(($1906|0),($1907|0),($1898|0),($1899|0))|0); + $1909 = tempRet0; + $1910 = (_i64Add(($1908|0),($1909|0),($1890|0),($1891|0))|0); + $1911 = tempRet0; + $1912 = $570; + $1913 = $1912; + $1914 = HEAP32[$1913>>2]|0; + $1915 = (($1912) + 4)|0; + $1916 = $1915; + $1917 = HEAP32[$1916>>2]|0; + $1918 = (_bitshift64Ashr(0,($1914|0),32)|0); + $1919 = tempRet0; + $1920 = $1114; + $1921 = $1920; + $1922 = HEAP32[$1921>>2]|0; + $1923 = (($1920) + 4)|0; + $1924 = $1923; + $1925 = HEAP32[$1924>>2]|0; + $1926 = (_bitshift64Ashr(0,($1922|0),32)|0); + $1927 = tempRet0; + $1928 = (___muldi3(($1926|0),($1927|0),($1918|0),($1919|0))|0); + $1929 = tempRet0; + $1930 = (_i64Add(($1910|0),($1911|0),($1928|0),($1929|0))|0); + $1931 = tempRet0; + $1932 = $1127; + $1933 = $1932; + $1934 = HEAP32[$1933>>2]|0; + $1935 = (($1932) + 4)|0; + $1936 = $1935; + $1937 = HEAP32[$1936>>2]|0; + $1938 = (_bitshift64Ashr(0,($1934|0),32)|0); + $1939 = tempRet0; + $1940 = $557; + $1941 = $1940; + $1942 = HEAP32[$1941>>2]|0; + $1943 = (($1940) + 4)|0; + $1944 = $1943; + $1945 = HEAP32[$1944>>2]|0; + $1946 = (_bitshift64Ashr(0,($1942|0),32)|0); + $1947 = tempRet0; + $1948 = (___muldi3(($1946|0),($1947|0),($1938|0),($1939|0))|0); + $1949 = tempRet0; + $1950 = (_i64Add(($1930|0),($1931|0),($1948|0),($1949|0))|0); + $1951 = tempRet0; + $1952 = (($output) + 120|0); + $1953 = $1952; + $1954 = $1953; + HEAP32[$1954>>2] = $1950; + $1955 = (($1953) + 4)|0; + $1956 = $1955; + HEAP32[$1956>>2] = $1951; + $1957 = $922; + $1958 = $1957; + $1959 = HEAP32[$1958>>2]|0; + $1960 = (($1957) + 4)|0; + $1961 = $1960; + $1962 = HEAP32[$1961>>2]|0; + $1963 = (_bitshift64Ashr(0,($1959|0),32)|0); + $1964 = tempRet0; + $1965 = $909; + $1966 = $1965; + $1967 = HEAP32[$1966>>2]|0; + $1968 = (($1965) + 4)|0; + $1969 = $1968; + $1970 = HEAP32[$1969>>2]|0; + $1971 = (_bitshift64Ashr(0,($1967|0),32)|0); + $1972 = tempRet0; + $1973 = (___muldi3(($1971|0),($1972|0),($1963|0),($1964|0))|0); + $1974 = tempRet0; + $1975 = $735; + $1976 = $1975; + $1977 = HEAP32[$1976>>2]|0; + $1978 = (($1975) + 4)|0; + $1979 = $1978; + $1980 = HEAP32[$1979>>2]|0; + $1981 = (_bitshift64Ashr(0,($1977|0),32)|0); + $1982 = tempRet0; + $1983 = $1114; + $1984 = $1983; + $1985 = HEAP32[$1984>>2]|0; + $1986 = (($1983) + 4)|0; + $1987 = $1986; + $1988 = HEAP32[$1987>>2]|0; + $1989 = (_bitshift64Ashr(0,($1985|0),32)|0); + $1990 = tempRet0; + $1991 = (___muldi3(($1989|0),($1990|0),($1981|0),($1982|0))|0); + $1992 = tempRet0; + $1993 = $1127; + $1994 = $1993; + $1995 = HEAP32[$1994>>2]|0; + $1996 = (($1993) + 4)|0; + $1997 = $1996; + $1998 = HEAP32[$1997>>2]|0; + $1999 = (_bitshift64Ashr(0,($1995|0),32)|0); + $2000 = tempRet0; + $2001 = $722; + $2002 = $2001; + $2003 = HEAP32[$2002>>2]|0; + $2004 = (($2001) + 4)|0; + $2005 = $2004; + $2006 = HEAP32[$2005>>2]|0; + $2007 = (_bitshift64Ashr(0,($2003|0),32)|0); + $2008 = tempRet0; + $2009 = (___muldi3(($2007|0),($2008|0),($1999|0),($2000|0))|0); + $2010 = tempRet0; + $2011 = (_i64Add(($2009|0),($2010|0),($1991|0),($1992|0))|0); + $2012 = tempRet0; + $2013 = (_bitshift64Shl(($2011|0),($2012|0),1)|0); + $2014 = tempRet0; + $2015 = (_i64Add(($2013|0),($2014|0),($1973|0),($1974|0))|0); + $2016 = tempRet0; + $2017 = (($output) + 128|0); + $2018 = $2017; + $2019 = $2018; + HEAP32[$2019>>2] = $2015; + $2020 = (($2018) + 4)|0; + $2021 = $2020; + HEAP32[$2021>>2] = $2016; + $2022 = $922; + $2023 = $2022; + $2024 = HEAP32[$2023>>2]|0; + $2025 = (($2022) + 4)|0; + $2026 = $2025; + $2027 = HEAP32[$2026>>2]|0; + $2028 = (_bitshift64Ashr(0,($2024|0),32)|0); + $2029 = tempRet0; + $2030 = $1114; + $2031 = $2030; + $2032 = HEAP32[$2031>>2]|0; + $2033 = (($2030) + 4)|0; + $2034 = $2033; + $2035 = HEAP32[$2034>>2]|0; + $2036 = (_bitshift64Ashr(0,($2032|0),32)|0); + $2037 = tempRet0; + $2038 = (___muldi3(($2036|0),($2037|0),($2028|0),($2029|0))|0); + $2039 = tempRet0; + $2040 = $1127; + $2041 = $2040; + $2042 = HEAP32[$2041>>2]|0; + $2043 = (($2040) + 4)|0; + $2044 = $2043; + $2045 = HEAP32[$2044>>2]|0; + $2046 = (_bitshift64Ashr(0,($2042|0),32)|0); + $2047 = tempRet0; + $2048 = $909; + $2049 = $2048; + $2050 = HEAP32[$2049>>2]|0; + $2051 = (($2048) + 4)|0; + $2052 = $2051; + $2053 = HEAP32[$2052>>2]|0; + $2054 = (_bitshift64Ashr(0,($2050|0),32)|0); + $2055 = tempRet0; + $2056 = (___muldi3(($2054|0),($2055|0),($2046|0),($2047|0))|0); + $2057 = tempRet0; + $2058 = (_i64Add(($2056|0),($2057|0),($2038|0),($2039|0))|0); + $2059 = tempRet0; + $2060 = (($output) + 136|0); + $2061 = $2060; + $2062 = $2061; + HEAP32[$2062>>2] = $2058; + $2063 = (($2061) + 4)|0; + $2064 = $2063; + HEAP32[$2064>>2] = $2059; + $2065 = $1127; + $2066 = $2065; + $2067 = HEAP32[$2066>>2]|0; + $2068 = (($2065) + 4)|0; + $2069 = $2068; + $2070 = HEAP32[$2069>>2]|0; + $2071 = (_bitshift64Ashr(0,($2067|0),31)|0); + $2072 = tempRet0; + $2073 = $1114; + $2074 = $2073; + $2075 = HEAP32[$2074>>2]|0; + $2076 = (($2073) + 4)|0; + $2077 = $2076; + $2078 = HEAP32[$2077>>2]|0; + $2079 = (_bitshift64Ashr(0,($2075|0),32)|0); + $2080 = tempRet0; + $2081 = (___muldi3(($2079|0),($2080|0),($2071|0),($2072|0))|0); + $2082 = tempRet0; + $2083 = (($output) + 144|0); + $2084 = $2083; + $2085 = $2084; + HEAP32[$2085>>2] = $2081; + $2086 = (($2084) + 4)|0; + $2087 = $2086; + HEAP32[$2087>>2] = $2082; + STACKTOP = sp;return; +} +function _freduce_degree($output) { + $output = $output|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0; + var $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0; + var $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0; + var $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0; + var $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0; + var $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0; + var $297 = 0, $298 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0; + var $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0; + var $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0; + var $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0; + var sp = 0; + sp = STACKTOP; + $0 = (($output) + 144|0); + $1 = $0; + $2 = $1; + $3 = HEAP32[$2>>2]|0; + $4 = (($1) + 4)|0; + $5 = $4; + $6 = HEAP32[$5>>2]|0; + $7 = (_bitshift64Shl(($3|0),($6|0),4)|0); + $8 = tempRet0; + $9 = (($output) + 64|0); + $10 = $9; + $11 = $10; + $12 = HEAP32[$11>>2]|0; + $13 = (($10) + 4)|0; + $14 = $13; + $15 = HEAP32[$14>>2]|0; + $16 = (_i64Add(($12|0),($15|0),($7|0),($8|0))|0); + $17 = tempRet0; + $18 = (_bitshift64Shl(($3|0),($6|0),1)|0); + $19 = tempRet0; + $20 = (_i64Add(($18|0),($19|0),($16|0),($17|0))|0); + $21 = tempRet0; + $22 = $0; + $23 = $22; + $24 = HEAP32[$23>>2]|0; + $25 = (($22) + 4)|0; + $26 = $25; + $27 = HEAP32[$26>>2]|0; + $28 = (_i64Add(($20|0),($21|0),($24|0),($27|0))|0); + $29 = tempRet0; + $30 = $9; + $31 = $30; + HEAP32[$31>>2] = $28; + $32 = (($30) + 4)|0; + $33 = $32; + HEAP32[$33>>2] = $29; + $34 = (($output) + 136|0); + $35 = $34; + $36 = $35; + $37 = HEAP32[$36>>2]|0; + $38 = (($35) + 4)|0; + $39 = $38; + $40 = HEAP32[$39>>2]|0; + $41 = (_bitshift64Shl(($37|0),($40|0),4)|0); + $42 = tempRet0; + $43 = (($output) + 56|0); + $44 = $43; + $45 = $44; + $46 = HEAP32[$45>>2]|0; + $47 = (($44) + 4)|0; + $48 = $47; + $49 = HEAP32[$48>>2]|0; + $50 = (_i64Add(($46|0),($49|0),($41|0),($42|0))|0); + $51 = tempRet0; + $52 = (_bitshift64Shl(($37|0),($40|0),1)|0); + $53 = tempRet0; + $54 = (_i64Add(($52|0),($53|0),($50|0),($51|0))|0); + $55 = tempRet0; + $56 = $34; + $57 = $56; + $58 = HEAP32[$57>>2]|0; + $59 = (($56) + 4)|0; + $60 = $59; + $61 = HEAP32[$60>>2]|0; + $62 = (_i64Add(($54|0),($55|0),($58|0),($61|0))|0); + $63 = tempRet0; + $64 = $43; + $65 = $64; + HEAP32[$65>>2] = $62; + $66 = (($64) + 4)|0; + $67 = $66; + HEAP32[$67>>2] = $63; + $68 = (($output) + 128|0); + $69 = $68; + $70 = $69; + $71 = HEAP32[$70>>2]|0; + $72 = (($69) + 4)|0; + $73 = $72; + $74 = HEAP32[$73>>2]|0; + $75 = (_bitshift64Shl(($71|0),($74|0),4)|0); + $76 = tempRet0; + $77 = (($output) + 48|0); + $78 = $77; + $79 = $78; + $80 = HEAP32[$79>>2]|0; + $81 = (($78) + 4)|0; + $82 = $81; + $83 = HEAP32[$82>>2]|0; + $84 = (_i64Add(($80|0),($83|0),($75|0),($76|0))|0); + $85 = tempRet0; + $86 = (_bitshift64Shl(($71|0),($74|0),1)|0); + $87 = tempRet0; + $88 = (_i64Add(($86|0),($87|0),($84|0),($85|0))|0); + $89 = tempRet0; + $90 = $68; + $91 = $90; + $92 = HEAP32[$91>>2]|0; + $93 = (($90) + 4)|0; + $94 = $93; + $95 = HEAP32[$94>>2]|0; + $96 = (_i64Add(($88|0),($89|0),($92|0),($95|0))|0); + $97 = tempRet0; + $98 = $77; + $99 = $98; + HEAP32[$99>>2] = $96; + $100 = (($98) + 4)|0; + $101 = $100; + HEAP32[$101>>2] = $97; + $102 = (($output) + 120|0); + $103 = $102; + $104 = $103; + $105 = HEAP32[$104>>2]|0; + $106 = (($103) + 4)|0; + $107 = $106; + $108 = HEAP32[$107>>2]|0; + $109 = (_bitshift64Shl(($105|0),($108|0),4)|0); + $110 = tempRet0; + $111 = (($output) + 40|0); + $112 = $111; + $113 = $112; + $114 = HEAP32[$113>>2]|0; + $115 = (($112) + 4)|0; + $116 = $115; + $117 = HEAP32[$116>>2]|0; + $118 = (_i64Add(($114|0),($117|0),($109|0),($110|0))|0); + $119 = tempRet0; + $120 = (_bitshift64Shl(($105|0),($108|0),1)|0); + $121 = tempRet0; + $122 = (_i64Add(($120|0),($121|0),($118|0),($119|0))|0); + $123 = tempRet0; + $124 = $102; + $125 = $124; + $126 = HEAP32[$125>>2]|0; + $127 = (($124) + 4)|0; + $128 = $127; + $129 = HEAP32[$128>>2]|0; + $130 = (_i64Add(($122|0),($123|0),($126|0),($129|0))|0); + $131 = tempRet0; + $132 = $111; + $133 = $132; + HEAP32[$133>>2] = $130; + $134 = (($132) + 4)|0; + $135 = $134; + HEAP32[$135>>2] = $131; + $136 = (($output) + 112|0); + $137 = $136; + $138 = $137; + $139 = HEAP32[$138>>2]|0; + $140 = (($137) + 4)|0; + $141 = $140; + $142 = HEAP32[$141>>2]|0; + $143 = (_bitshift64Shl(($139|0),($142|0),4)|0); + $144 = tempRet0; + $145 = (($output) + 32|0); + $146 = $145; + $147 = $146; + $148 = HEAP32[$147>>2]|0; + $149 = (($146) + 4)|0; + $150 = $149; + $151 = HEAP32[$150>>2]|0; + $152 = (_i64Add(($148|0),($151|0),($143|0),($144|0))|0); + $153 = tempRet0; + $154 = (_bitshift64Shl(($139|0),($142|0),1)|0); + $155 = tempRet0; + $156 = (_i64Add(($154|0),($155|0),($152|0),($153|0))|0); + $157 = tempRet0; + $158 = $136; + $159 = $158; + $160 = HEAP32[$159>>2]|0; + $161 = (($158) + 4)|0; + $162 = $161; + $163 = HEAP32[$162>>2]|0; + $164 = (_i64Add(($156|0),($157|0),($160|0),($163|0))|0); + $165 = tempRet0; + $166 = $145; + $167 = $166; + HEAP32[$167>>2] = $164; + $168 = (($166) + 4)|0; + $169 = $168; + HEAP32[$169>>2] = $165; + $170 = (($output) + 104|0); + $171 = $170; + $172 = $171; + $173 = HEAP32[$172>>2]|0; + $174 = (($171) + 4)|0; + $175 = $174; + $176 = HEAP32[$175>>2]|0; + $177 = (_bitshift64Shl(($173|0),($176|0),4)|0); + $178 = tempRet0; + $179 = (($output) + 24|0); + $180 = $179; + $181 = $180; + $182 = HEAP32[$181>>2]|0; + $183 = (($180) + 4)|0; + $184 = $183; + $185 = HEAP32[$184>>2]|0; + $186 = (_i64Add(($182|0),($185|0),($177|0),($178|0))|0); + $187 = tempRet0; + $188 = (_bitshift64Shl(($173|0),($176|0),1)|0); + $189 = tempRet0; + $190 = (_i64Add(($188|0),($189|0),($186|0),($187|0))|0); + $191 = tempRet0; + $192 = $170; + $193 = $192; + $194 = HEAP32[$193>>2]|0; + $195 = (($192) + 4)|0; + $196 = $195; + $197 = HEAP32[$196>>2]|0; + $198 = (_i64Add(($190|0),($191|0),($194|0),($197|0))|0); + $199 = tempRet0; + $200 = $179; + $201 = $200; + HEAP32[$201>>2] = $198; + $202 = (($200) + 4)|0; + $203 = $202; + HEAP32[$203>>2] = $199; + $204 = (($output) + 96|0); + $205 = $204; + $206 = $205; + $207 = HEAP32[$206>>2]|0; + $208 = (($205) + 4)|0; + $209 = $208; + $210 = HEAP32[$209>>2]|0; + $211 = (_bitshift64Shl(($207|0),($210|0),4)|0); + $212 = tempRet0; + $213 = (($output) + 16|0); + $214 = $213; + $215 = $214; + $216 = HEAP32[$215>>2]|0; + $217 = (($214) + 4)|0; + $218 = $217; + $219 = HEAP32[$218>>2]|0; + $220 = (_i64Add(($216|0),($219|0),($211|0),($212|0))|0); + $221 = tempRet0; + $222 = (_bitshift64Shl(($207|0),($210|0),1)|0); + $223 = tempRet0; + $224 = (_i64Add(($222|0),($223|0),($220|0),($221|0))|0); + $225 = tempRet0; + $226 = $204; + $227 = $226; + $228 = HEAP32[$227>>2]|0; + $229 = (($226) + 4)|0; + $230 = $229; + $231 = HEAP32[$230>>2]|0; + $232 = (_i64Add(($224|0),($225|0),($228|0),($231|0))|0); + $233 = tempRet0; + $234 = $213; + $235 = $234; + HEAP32[$235>>2] = $232; + $236 = (($234) + 4)|0; + $237 = $236; + HEAP32[$237>>2] = $233; + $238 = (($output) + 88|0); + $239 = $238; + $240 = $239; + $241 = HEAP32[$240>>2]|0; + $242 = (($239) + 4)|0; + $243 = $242; + $244 = HEAP32[$243>>2]|0; + $245 = (_bitshift64Shl(($241|0),($244|0),4)|0); + $246 = tempRet0; + $247 = (($output) + 8|0); + $248 = $247; + $249 = $248; + $250 = HEAP32[$249>>2]|0; + $251 = (($248) + 4)|0; + $252 = $251; + $253 = HEAP32[$252>>2]|0; + $254 = (_i64Add(($250|0),($253|0),($245|0),($246|0))|0); + $255 = tempRet0; + $256 = (_bitshift64Shl(($241|0),($244|0),1)|0); + $257 = tempRet0; + $258 = (_i64Add(($256|0),($257|0),($254|0),($255|0))|0); + $259 = tempRet0; + $260 = $238; + $261 = $260; + $262 = HEAP32[$261>>2]|0; + $263 = (($260) + 4)|0; + $264 = $263; + $265 = HEAP32[$264>>2]|0; + $266 = (_i64Add(($258|0),($259|0),($262|0),($265|0))|0); + $267 = tempRet0; + $268 = $247; + $269 = $268; + HEAP32[$269>>2] = $266; + $270 = (($268) + 4)|0; + $271 = $270; + HEAP32[$271>>2] = $267; + $272 = (($output) + 80|0); + $273 = $272; + $274 = $273; + $275 = HEAP32[$274>>2]|0; + $276 = (($273) + 4)|0; + $277 = $276; + $278 = HEAP32[$277>>2]|0; + $279 = (_bitshift64Shl(($275|0),($278|0),4)|0); + $280 = tempRet0; + $281 = $output; + $282 = $281; + $283 = HEAP32[$282>>2]|0; + $284 = (($281) + 4)|0; + $285 = $284; + $286 = HEAP32[$285>>2]|0; + $287 = (_i64Add(($283|0),($286|0),($279|0),($280|0))|0); + $288 = tempRet0; + $289 = (_bitshift64Shl(($275|0),($278|0),1)|0); + $290 = tempRet0; + $291 = (_i64Add(($289|0),($290|0),($287|0),($288|0))|0); + $292 = tempRet0; + $293 = (_i64Add(($291|0),($292|0),($275|0),($278|0))|0); + $294 = tempRet0; + $295 = $output; + $296 = $295; + HEAP32[$296>>2] = $293; + $297 = (($295) + 4)|0; + $298 = $297; + HEAP32[$298>>2] = $294; + STACKTOP = sp;return; +} +function _freduce_coefficients($output) { + $output = $output|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0; + var $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0; + var $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0; + var $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0; + var $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $i$01 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (($output) + 80|0); + $1 = $0; + $2 = $1; + HEAP32[$2>>2] = 0; + $3 = (($1) + 4)|0; + $4 = $3; + HEAP32[$4>>2] = 0; + $i$01 = 0; + while(1) { + $5 = (($output) + ($i$01<<3)|0); + $6 = $5; + $7 = $6; + $8 = HEAP32[$7>>2]|0; + $9 = (($6) + 4)|0; + $10 = $9; + $11 = HEAP32[$10>>2]|0; + $12 = (_div_by_2_26($8,$11)|0); + $13 = tempRet0; + $14 = (_bitshift64Shl(($12|0),($13|0),26)|0); + $15 = tempRet0; + $16 = (_i64Subtract(($8|0),($11|0),($14|0),($15|0))|0); + $17 = tempRet0; + $18 = $5; + $19 = $18; + HEAP32[$19>>2] = $16; + $20 = (($18) + 4)|0; + $21 = $20; + HEAP32[$21>>2] = $17; + $22 = $i$01 | 1; + $23 = (($output) + ($22<<3)|0); + $24 = $23; + $25 = $24; + $26 = HEAP32[$25>>2]|0; + $27 = (($24) + 4)|0; + $28 = $27; + $29 = HEAP32[$28>>2]|0; + $30 = (_i64Add(($26|0),($29|0),($12|0),($13|0))|0); + $31 = tempRet0; + $32 = (_div_by_2_25($30,$31)|0); + $33 = tempRet0; + $34 = (_bitshift64Shl(($32|0),($33|0),25)|0); + $35 = tempRet0; + $36 = (_i64Subtract(($30|0),($31|0),($34|0),($35|0))|0); + $37 = tempRet0; + $38 = $23; + $39 = $38; + HEAP32[$39>>2] = $36; + $40 = (($38) + 4)|0; + $41 = $40; + HEAP32[$41>>2] = $37; + $42 = (($i$01) + 2)|0; + $43 = (($output) + ($42<<3)|0); + $44 = $43; + $45 = $44; + $46 = HEAP32[$45>>2]|0; + $47 = (($44) + 4)|0; + $48 = $47; + $49 = HEAP32[$48>>2]|0; + $50 = (_i64Add(($46|0),($49|0),($32|0),($33|0))|0); + $51 = tempRet0; + $52 = $43; + $53 = $52; + HEAP32[$53>>2] = $50; + $54 = (($52) + 4)|0; + $55 = $54; + HEAP32[$55>>2] = $51; + $56 = ($42>>>0)<(10); + if ($56) { + $i$01 = $42; + } else { + break; + } + } + $57 = $0; + $58 = $57; + $59 = HEAP32[$58>>2]|0; + $60 = (($57) + 4)|0; + $61 = $60; + $62 = HEAP32[$61>>2]|0; + $63 = (_bitshift64Shl(($59|0),($62|0),4)|0); + $64 = tempRet0; + $65 = $output; + $66 = $65; + $67 = HEAP32[$66>>2]|0; + $68 = (($65) + 4)|0; + $69 = $68; + $70 = HEAP32[$69>>2]|0; + $71 = (_i64Add(($67|0),($70|0),($63|0),($64|0))|0); + $72 = tempRet0; + $73 = (_bitshift64Shl(($59|0),($62|0),1)|0); + $74 = tempRet0; + $75 = (_i64Add(($73|0),($74|0),($71|0),($72|0))|0); + $76 = tempRet0; + $77 = (_i64Add(($75|0),($76|0),($59|0),($62|0))|0); + $78 = tempRet0; + $79 = $output; + $80 = $79; + HEAP32[$80>>2] = $77; + $81 = (($79) + 4)|0; + $82 = $81; + HEAP32[$82>>2] = $78; + $83 = $0; + $84 = $83; + HEAP32[$84>>2] = 0; + $85 = (($83) + 4)|0; + $86 = $85; + HEAP32[$86>>2] = 0; + $87 = $output; + $88 = $87; + $89 = HEAP32[$88>>2]|0; + $90 = (($87) + 4)|0; + $91 = $90; + $92 = HEAP32[$91>>2]|0; + $93 = (_div_by_2_26($89,$92)|0); + $94 = tempRet0; + $95 = (_bitshift64Shl(($93|0),($94|0),26)|0); + $96 = tempRet0; + $97 = (_i64Subtract(($89|0),($92|0),($95|0),($96|0))|0); + $98 = tempRet0; + $99 = $output; + $100 = $99; + HEAP32[$100>>2] = $97; + $101 = (($99) + 4)|0; + $102 = $101; + HEAP32[$102>>2] = $98; + $103 = (($output) + 8|0); + $104 = $103; + $105 = $104; + $106 = HEAP32[$105>>2]|0; + $107 = (($104) + 4)|0; + $108 = $107; + $109 = HEAP32[$108>>2]|0; + $110 = (_i64Add(($106|0),($109|0),($93|0),($94|0))|0); + $111 = tempRet0; + $112 = $103; + $113 = $112; + HEAP32[$113>>2] = $110; + $114 = (($112) + 4)|0; + $115 = $114; + HEAP32[$115>>2] = $111; + STACKTOP = sp;return; +} +function _s32_eq($a,$b) { + $a = $a|0; + $b = $b|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $a ^ -1; + $1 = $0 ^ $b; + $2 = $1 << 16; + $3 = $2 & $1; + $4 = $3 << 8; + $5 = $4 & $3; + $6 = $5 << 4; + $7 = $6 & $5; + $8 = $7 << 2; + $9 = $8 & $7; + $10 = $9 << 1; + $11 = $10 & $9; + $12 = $11 >> 31; + STACKTOP = sp;return ($12|0); +} +function _s32_gte($a) { + $a = $a|0; + var $0 = 0, $1 = 0, $2 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (($a) + -67108845)|0; + $1 = $0 >> 31; + $2 = $1 ^ -1; + STACKTOP = sp;return ($2|0); +} +function _fsum($output,$in) { + $output = $output|0; + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0; + var $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0; + var $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0; + var $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0; + var $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $output; + $1 = $0; + $2 = HEAP32[$1>>2]|0; + $3 = (($0) + 4)|0; + $4 = $3; + $5 = HEAP32[$4>>2]|0; + $6 = $in; + $7 = $6; + $8 = HEAP32[$7>>2]|0; + $9 = (($6) + 4)|0; + $10 = $9; + $11 = HEAP32[$10>>2]|0; + $12 = (_i64Add(($8|0),($11|0),($2|0),($5|0))|0); + $13 = tempRet0; + $14 = $output; + $15 = $14; + HEAP32[$15>>2] = $12; + $16 = (($14) + 4)|0; + $17 = $16; + HEAP32[$17>>2] = $13; + $18 = (($output) + 8|0); + $19 = $18; + $20 = $19; + $21 = HEAP32[$20>>2]|0; + $22 = (($19) + 4)|0; + $23 = $22; + $24 = HEAP32[$23>>2]|0; + $25 = (($in) + 8|0); + $26 = $25; + $27 = $26; + $28 = HEAP32[$27>>2]|0; + $29 = (($26) + 4)|0; + $30 = $29; + $31 = HEAP32[$30>>2]|0; + $32 = (_i64Add(($28|0),($31|0),($21|0),($24|0))|0); + $33 = tempRet0; + $34 = $18; + $35 = $34; + HEAP32[$35>>2] = $32; + $36 = (($34) + 4)|0; + $37 = $36; + HEAP32[$37>>2] = $33; + $38 = (($output) + 16|0); + $39 = $38; + $40 = $39; + $41 = HEAP32[$40>>2]|0; + $42 = (($39) + 4)|0; + $43 = $42; + $44 = HEAP32[$43>>2]|0; + $45 = (($in) + 16|0); + $46 = $45; + $47 = $46; + $48 = HEAP32[$47>>2]|0; + $49 = (($46) + 4)|0; + $50 = $49; + $51 = HEAP32[$50>>2]|0; + $52 = (_i64Add(($48|0),($51|0),($41|0),($44|0))|0); + $53 = tempRet0; + $54 = $38; + $55 = $54; + HEAP32[$55>>2] = $52; + $56 = (($54) + 4)|0; + $57 = $56; + HEAP32[$57>>2] = $53; + $58 = (($output) + 24|0); + $59 = $58; + $60 = $59; + $61 = HEAP32[$60>>2]|0; + $62 = (($59) + 4)|0; + $63 = $62; + $64 = HEAP32[$63>>2]|0; + $65 = (($in) + 24|0); + $66 = $65; + $67 = $66; + $68 = HEAP32[$67>>2]|0; + $69 = (($66) + 4)|0; + $70 = $69; + $71 = HEAP32[$70>>2]|0; + $72 = (_i64Add(($68|0),($71|0),($61|0),($64|0))|0); + $73 = tempRet0; + $74 = $58; + $75 = $74; + HEAP32[$75>>2] = $72; + $76 = (($74) + 4)|0; + $77 = $76; + HEAP32[$77>>2] = $73; + $78 = (($output) + 32|0); + $79 = $78; + $80 = $79; + $81 = HEAP32[$80>>2]|0; + $82 = (($79) + 4)|0; + $83 = $82; + $84 = HEAP32[$83>>2]|0; + $85 = (($in) + 32|0); + $86 = $85; + $87 = $86; + $88 = HEAP32[$87>>2]|0; + $89 = (($86) + 4)|0; + $90 = $89; + $91 = HEAP32[$90>>2]|0; + $92 = (_i64Add(($88|0),($91|0),($81|0),($84|0))|0); + $93 = tempRet0; + $94 = $78; + $95 = $94; + HEAP32[$95>>2] = $92; + $96 = (($94) + 4)|0; + $97 = $96; + HEAP32[$97>>2] = $93; + $98 = (($output) + 40|0); + $99 = $98; + $100 = $99; + $101 = HEAP32[$100>>2]|0; + $102 = (($99) + 4)|0; + $103 = $102; + $104 = HEAP32[$103>>2]|0; + $105 = (($in) + 40|0); + $106 = $105; + $107 = $106; + $108 = HEAP32[$107>>2]|0; + $109 = (($106) + 4)|0; + $110 = $109; + $111 = HEAP32[$110>>2]|0; + $112 = (_i64Add(($108|0),($111|0),($101|0),($104|0))|0); + $113 = tempRet0; + $114 = $98; + $115 = $114; + HEAP32[$115>>2] = $112; + $116 = (($114) + 4)|0; + $117 = $116; + HEAP32[$117>>2] = $113; + $118 = (($output) + 48|0); + $119 = $118; + $120 = $119; + $121 = HEAP32[$120>>2]|0; + $122 = (($119) + 4)|0; + $123 = $122; + $124 = HEAP32[$123>>2]|0; + $125 = (($in) + 48|0); + $126 = $125; + $127 = $126; + $128 = HEAP32[$127>>2]|0; + $129 = (($126) + 4)|0; + $130 = $129; + $131 = HEAP32[$130>>2]|0; + $132 = (_i64Add(($128|0),($131|0),($121|0),($124|0))|0); + $133 = tempRet0; + $134 = $118; + $135 = $134; + HEAP32[$135>>2] = $132; + $136 = (($134) + 4)|0; + $137 = $136; + HEAP32[$137>>2] = $133; + $138 = (($output) + 56|0); + $139 = $138; + $140 = $139; + $141 = HEAP32[$140>>2]|0; + $142 = (($139) + 4)|0; + $143 = $142; + $144 = HEAP32[$143>>2]|0; + $145 = (($in) + 56|0); + $146 = $145; + $147 = $146; + $148 = HEAP32[$147>>2]|0; + $149 = (($146) + 4)|0; + $150 = $149; + $151 = HEAP32[$150>>2]|0; + $152 = (_i64Add(($148|0),($151|0),($141|0),($144|0))|0); + $153 = tempRet0; + $154 = $138; + $155 = $154; + HEAP32[$155>>2] = $152; + $156 = (($154) + 4)|0; + $157 = $156; + HEAP32[$157>>2] = $153; + $158 = (($output) + 64|0); + $159 = $158; + $160 = $159; + $161 = HEAP32[$160>>2]|0; + $162 = (($159) + 4)|0; + $163 = $162; + $164 = HEAP32[$163>>2]|0; + $165 = (($in) + 64|0); + $166 = $165; + $167 = $166; + $168 = HEAP32[$167>>2]|0; + $169 = (($166) + 4)|0; + $170 = $169; + $171 = HEAP32[$170>>2]|0; + $172 = (_i64Add(($168|0),($171|0),($161|0),($164|0))|0); + $173 = tempRet0; + $174 = $158; + $175 = $174; + HEAP32[$175>>2] = $172; + $176 = (($174) + 4)|0; + $177 = $176; + HEAP32[$177>>2] = $173; + $178 = (($output) + 72|0); + $179 = $178; + $180 = $179; + $181 = HEAP32[$180>>2]|0; + $182 = (($179) + 4)|0; + $183 = $182; + $184 = HEAP32[$183>>2]|0; + $185 = (($in) + 72|0); + $186 = $185; + $187 = $186; + $188 = HEAP32[$187>>2]|0; + $189 = (($186) + 4)|0; + $190 = $189; + $191 = HEAP32[$190>>2]|0; + $192 = (_i64Add(($188|0),($191|0),($181|0),($184|0))|0); + $193 = tempRet0; + $194 = $178; + $195 = $194; + HEAP32[$195>>2] = $192; + $196 = (($194) + 4)|0; + $197 = $196; + HEAP32[$197>>2] = $193; + STACKTOP = sp;return; +} +function _fdifference($output,$in) { + $output = $output|0; + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0; + var $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0; + var $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0; + var $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0; + var $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $in; + $1 = $0; + $2 = HEAP32[$1>>2]|0; + $3 = (($0) + 4)|0; + $4 = $3; + $5 = HEAP32[$4>>2]|0; + $6 = $output; + $7 = $6; + $8 = HEAP32[$7>>2]|0; + $9 = (($6) + 4)|0; + $10 = $9; + $11 = HEAP32[$10>>2]|0; + $12 = (_i64Subtract(($2|0),($5|0),($8|0),($11|0))|0); + $13 = tempRet0; + $14 = $output; + $15 = $14; + HEAP32[$15>>2] = $12; + $16 = (($14) + 4)|0; + $17 = $16; + HEAP32[$17>>2] = $13; + $18 = (($in) + 8|0); + $19 = $18; + $20 = $19; + $21 = HEAP32[$20>>2]|0; + $22 = (($19) + 4)|0; + $23 = $22; + $24 = HEAP32[$23>>2]|0; + $25 = (($output) + 8|0); + $26 = $25; + $27 = $26; + $28 = HEAP32[$27>>2]|0; + $29 = (($26) + 4)|0; + $30 = $29; + $31 = HEAP32[$30>>2]|0; + $32 = (_i64Subtract(($21|0),($24|0),($28|0),($31|0))|0); + $33 = tempRet0; + $34 = $25; + $35 = $34; + HEAP32[$35>>2] = $32; + $36 = (($34) + 4)|0; + $37 = $36; + HEAP32[$37>>2] = $33; + $38 = (($in) + 16|0); + $39 = $38; + $40 = $39; + $41 = HEAP32[$40>>2]|0; + $42 = (($39) + 4)|0; + $43 = $42; + $44 = HEAP32[$43>>2]|0; + $45 = (($output) + 16|0); + $46 = $45; + $47 = $46; + $48 = HEAP32[$47>>2]|0; + $49 = (($46) + 4)|0; + $50 = $49; + $51 = HEAP32[$50>>2]|0; + $52 = (_i64Subtract(($41|0),($44|0),($48|0),($51|0))|0); + $53 = tempRet0; + $54 = $45; + $55 = $54; + HEAP32[$55>>2] = $52; + $56 = (($54) + 4)|0; + $57 = $56; + HEAP32[$57>>2] = $53; + $58 = (($in) + 24|0); + $59 = $58; + $60 = $59; + $61 = HEAP32[$60>>2]|0; + $62 = (($59) + 4)|0; + $63 = $62; + $64 = HEAP32[$63>>2]|0; + $65 = (($output) + 24|0); + $66 = $65; + $67 = $66; + $68 = HEAP32[$67>>2]|0; + $69 = (($66) + 4)|0; + $70 = $69; + $71 = HEAP32[$70>>2]|0; + $72 = (_i64Subtract(($61|0),($64|0),($68|0),($71|0))|0); + $73 = tempRet0; + $74 = $65; + $75 = $74; + HEAP32[$75>>2] = $72; + $76 = (($74) + 4)|0; + $77 = $76; + HEAP32[$77>>2] = $73; + $78 = (($in) + 32|0); + $79 = $78; + $80 = $79; + $81 = HEAP32[$80>>2]|0; + $82 = (($79) + 4)|0; + $83 = $82; + $84 = HEAP32[$83>>2]|0; + $85 = (($output) + 32|0); + $86 = $85; + $87 = $86; + $88 = HEAP32[$87>>2]|0; + $89 = (($86) + 4)|0; + $90 = $89; + $91 = HEAP32[$90>>2]|0; + $92 = (_i64Subtract(($81|0),($84|0),($88|0),($91|0))|0); + $93 = tempRet0; + $94 = $85; + $95 = $94; + HEAP32[$95>>2] = $92; + $96 = (($94) + 4)|0; + $97 = $96; + HEAP32[$97>>2] = $93; + $98 = (($in) + 40|0); + $99 = $98; + $100 = $99; + $101 = HEAP32[$100>>2]|0; + $102 = (($99) + 4)|0; + $103 = $102; + $104 = HEAP32[$103>>2]|0; + $105 = (($output) + 40|0); + $106 = $105; + $107 = $106; + $108 = HEAP32[$107>>2]|0; + $109 = (($106) + 4)|0; + $110 = $109; + $111 = HEAP32[$110>>2]|0; + $112 = (_i64Subtract(($101|0),($104|0),($108|0),($111|0))|0); + $113 = tempRet0; + $114 = $105; + $115 = $114; + HEAP32[$115>>2] = $112; + $116 = (($114) + 4)|0; + $117 = $116; + HEAP32[$117>>2] = $113; + $118 = (($in) + 48|0); + $119 = $118; + $120 = $119; + $121 = HEAP32[$120>>2]|0; + $122 = (($119) + 4)|0; + $123 = $122; + $124 = HEAP32[$123>>2]|0; + $125 = (($output) + 48|0); + $126 = $125; + $127 = $126; + $128 = HEAP32[$127>>2]|0; + $129 = (($126) + 4)|0; + $130 = $129; + $131 = HEAP32[$130>>2]|0; + $132 = (_i64Subtract(($121|0),($124|0),($128|0),($131|0))|0); + $133 = tempRet0; + $134 = $125; + $135 = $134; + HEAP32[$135>>2] = $132; + $136 = (($134) + 4)|0; + $137 = $136; + HEAP32[$137>>2] = $133; + $138 = (($in) + 56|0); + $139 = $138; + $140 = $139; + $141 = HEAP32[$140>>2]|0; + $142 = (($139) + 4)|0; + $143 = $142; + $144 = HEAP32[$143>>2]|0; + $145 = (($output) + 56|0); + $146 = $145; + $147 = $146; + $148 = HEAP32[$147>>2]|0; + $149 = (($146) + 4)|0; + $150 = $149; + $151 = HEAP32[$150>>2]|0; + $152 = (_i64Subtract(($141|0),($144|0),($148|0),($151|0))|0); + $153 = tempRet0; + $154 = $145; + $155 = $154; + HEAP32[$155>>2] = $152; + $156 = (($154) + 4)|0; + $157 = $156; + HEAP32[$157>>2] = $153; + $158 = (($in) + 64|0); + $159 = $158; + $160 = $159; + $161 = HEAP32[$160>>2]|0; + $162 = (($159) + 4)|0; + $163 = $162; + $164 = HEAP32[$163>>2]|0; + $165 = (($output) + 64|0); + $166 = $165; + $167 = $166; + $168 = HEAP32[$167>>2]|0; + $169 = (($166) + 4)|0; + $170 = $169; + $171 = HEAP32[$170>>2]|0; + $172 = (_i64Subtract(($161|0),($164|0),($168|0),($171|0))|0); + $173 = tempRet0; + $174 = $165; + $175 = $174; + HEAP32[$175>>2] = $172; + $176 = (($174) + 4)|0; + $177 = $176; + HEAP32[$177>>2] = $173; + $178 = (($in) + 72|0); + $179 = $178; + $180 = $179; + $181 = HEAP32[$180>>2]|0; + $182 = (($179) + 4)|0; + $183 = $182; + $184 = HEAP32[$183>>2]|0; + $185 = (($output) + 72|0); + $186 = $185; + $187 = $186; + $188 = HEAP32[$187>>2]|0; + $189 = (($186) + 4)|0; + $190 = $189; + $191 = HEAP32[$190>>2]|0; + $192 = (_i64Subtract(($181|0),($184|0),($188|0),($191|0))|0); + $193 = tempRet0; + $194 = $185; + $195 = $194; + HEAP32[$195>>2] = $192; + $196 = (($194) + 4)|0; + $197 = $196; + HEAP32[$197>>2] = $193; + STACKTOP = sp;return; +} +function _fscalar_product($output,$in) { + $output = $output|0; + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0; + var $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0; + var $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0; + var $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0; + var $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $in; + $1 = $0; + $2 = HEAP32[$1>>2]|0; + $3 = (($0) + 4)|0; + $4 = $3; + $5 = HEAP32[$4>>2]|0; + $6 = (___muldi3(($2|0),($5|0),121665,0)|0); + $7 = tempRet0; + $8 = $output; + $9 = $8; + HEAP32[$9>>2] = $6; + $10 = (($8) + 4)|0; + $11 = $10; + HEAP32[$11>>2] = $7; + $12 = (($in) + 8|0); + $13 = $12; + $14 = $13; + $15 = HEAP32[$14>>2]|0; + $16 = (($13) + 4)|0; + $17 = $16; + $18 = HEAP32[$17>>2]|0; + $19 = (___muldi3(($15|0),($18|0),121665,0)|0); + $20 = tempRet0; + $21 = (($output) + 8|0); + $22 = $21; + $23 = $22; + HEAP32[$23>>2] = $19; + $24 = (($22) + 4)|0; + $25 = $24; + HEAP32[$25>>2] = $20; + $26 = (($in) + 16|0); + $27 = $26; + $28 = $27; + $29 = HEAP32[$28>>2]|0; + $30 = (($27) + 4)|0; + $31 = $30; + $32 = HEAP32[$31>>2]|0; + $33 = (___muldi3(($29|0),($32|0),121665,0)|0); + $34 = tempRet0; + $35 = (($output) + 16|0); + $36 = $35; + $37 = $36; + HEAP32[$37>>2] = $33; + $38 = (($36) + 4)|0; + $39 = $38; + HEAP32[$39>>2] = $34; + $40 = (($in) + 24|0); + $41 = $40; + $42 = $41; + $43 = HEAP32[$42>>2]|0; + $44 = (($41) + 4)|0; + $45 = $44; + $46 = HEAP32[$45>>2]|0; + $47 = (___muldi3(($43|0),($46|0),121665,0)|0); + $48 = tempRet0; + $49 = (($output) + 24|0); + $50 = $49; + $51 = $50; + HEAP32[$51>>2] = $47; + $52 = (($50) + 4)|0; + $53 = $52; + HEAP32[$53>>2] = $48; + $54 = (($in) + 32|0); + $55 = $54; + $56 = $55; + $57 = HEAP32[$56>>2]|0; + $58 = (($55) + 4)|0; + $59 = $58; + $60 = HEAP32[$59>>2]|0; + $61 = (___muldi3(($57|0),($60|0),121665,0)|0); + $62 = tempRet0; + $63 = (($output) + 32|0); + $64 = $63; + $65 = $64; + HEAP32[$65>>2] = $61; + $66 = (($64) + 4)|0; + $67 = $66; + HEAP32[$67>>2] = $62; + $68 = (($in) + 40|0); + $69 = $68; + $70 = $69; + $71 = HEAP32[$70>>2]|0; + $72 = (($69) + 4)|0; + $73 = $72; + $74 = HEAP32[$73>>2]|0; + $75 = (___muldi3(($71|0),($74|0),121665,0)|0); + $76 = tempRet0; + $77 = (($output) + 40|0); + $78 = $77; + $79 = $78; + HEAP32[$79>>2] = $75; + $80 = (($78) + 4)|0; + $81 = $80; + HEAP32[$81>>2] = $76; + $82 = (($in) + 48|0); + $83 = $82; + $84 = $83; + $85 = HEAP32[$84>>2]|0; + $86 = (($83) + 4)|0; + $87 = $86; + $88 = HEAP32[$87>>2]|0; + $89 = (___muldi3(($85|0),($88|0),121665,0)|0); + $90 = tempRet0; + $91 = (($output) + 48|0); + $92 = $91; + $93 = $92; + HEAP32[$93>>2] = $89; + $94 = (($92) + 4)|0; + $95 = $94; + HEAP32[$95>>2] = $90; + $96 = (($in) + 56|0); + $97 = $96; + $98 = $97; + $99 = HEAP32[$98>>2]|0; + $100 = (($97) + 4)|0; + $101 = $100; + $102 = HEAP32[$101>>2]|0; + $103 = (___muldi3(($99|0),($102|0),121665,0)|0); + $104 = tempRet0; + $105 = (($output) + 56|0); + $106 = $105; + $107 = $106; + HEAP32[$107>>2] = $103; + $108 = (($106) + 4)|0; + $109 = $108; + HEAP32[$109>>2] = $104; + $110 = (($in) + 64|0); + $111 = $110; + $112 = $111; + $113 = HEAP32[$112>>2]|0; + $114 = (($111) + 4)|0; + $115 = $114; + $116 = HEAP32[$115>>2]|0; + $117 = (___muldi3(($113|0),($116|0),121665,0)|0); + $118 = tempRet0; + $119 = (($output) + 64|0); + $120 = $119; + $121 = $120; + HEAP32[$121>>2] = $117; + $122 = (($120) + 4)|0; + $123 = $122; + HEAP32[$123>>2] = $118; + $124 = (($in) + 72|0); + $125 = $124; + $126 = $125; + $127 = HEAP32[$126>>2]|0; + $128 = (($125) + 4)|0; + $129 = $128; + $130 = HEAP32[$129>>2]|0; + $131 = (___muldi3(($127|0),($130|0),121665,0)|0); + $132 = tempRet0; + $133 = (($output) + 72|0); + $134 = $133; + $135 = $134; + HEAP32[$135>>2] = $131; + $136 = (($134) + 4)|0; + $137 = $136; + HEAP32[$137>>2] = $132; + STACKTOP = sp;return; +} +function _fsquare_inner($output,$in) { + $output = $output|0; + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $1000 = 0, $1001 = 0, $1002 = 0, $1003 = 0, $1004 = 0, $1005 = 0, $1006 = 0, $1007 = 0, $1008 = 0, $1009 = 0, $101 = 0, $1010 = 0, $1011 = 0, $1012 = 0, $1013 = 0, $1014 = 0; + var $1015 = 0, $1016 = 0, $1017 = 0, $1018 = 0, $1019 = 0, $102 = 0, $1020 = 0, $1021 = 0, $1022 = 0, $1023 = 0, $1024 = 0, $1025 = 0, $1026 = 0, $1027 = 0, $1028 = 0, $1029 = 0, $103 = 0, $1030 = 0, $1031 = 0, $1032 = 0; + var $1033 = 0, $1034 = 0, $1035 = 0, $1036 = 0, $1037 = 0, $1038 = 0, $1039 = 0, $104 = 0, $1040 = 0, $1041 = 0, $1042 = 0, $1043 = 0, $1044 = 0, $1045 = 0, $1046 = 0, $1047 = 0, $1048 = 0, $1049 = 0, $105 = 0, $1050 = 0; + var $1051 = 0, $1052 = 0, $1053 = 0, $1054 = 0, $1055 = 0, $1056 = 0, $1057 = 0, $1058 = 0, $1059 = 0, $106 = 0, $1060 = 0, $1061 = 0, $1062 = 0, $1063 = 0, $1064 = 0, $1065 = 0, $1066 = 0, $1067 = 0, $1068 = 0, $1069 = 0; + var $107 = 0, $1070 = 0, $1071 = 0, $1072 = 0, $1073 = 0, $1074 = 0, $1075 = 0, $1076 = 0, $1077 = 0, $1078 = 0, $1079 = 0, $108 = 0, $1080 = 0, $1081 = 0, $1082 = 0, $1083 = 0, $1084 = 0, $1085 = 0, $1086 = 0, $1087 = 0; + var $1088 = 0, $1089 = 0, $109 = 0, $1090 = 0, $1091 = 0, $1092 = 0, $1093 = 0, $1094 = 0, $1095 = 0, $1096 = 0, $1097 = 0, $1098 = 0, $1099 = 0, $11 = 0, $110 = 0, $1100 = 0, $1101 = 0, $1102 = 0, $1103 = 0, $1104 = 0; + var $1105 = 0, $1106 = 0, $1107 = 0, $1108 = 0, $1109 = 0, $111 = 0, $1110 = 0, $1111 = 0, $1112 = 0, $1113 = 0, $1114 = 0, $1115 = 0, $1116 = 0, $1117 = 0, $1118 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0; + var $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0; + var $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0; + var $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0; + var $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0; + var $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0; + var $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0; + var $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0; + var $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0; + var $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0; + var $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0; + var $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0; + var $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0; + var $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0, $350 = 0; + var $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0; + var $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0; + var $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0, $404 = 0; + var $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0, $422 = 0; + var $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0, $440 = 0; + var $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0, $459 = 0; + var $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0, $477 = 0; + var $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0, $495 = 0; + var $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0, $512 = 0; + var $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0, $530 = 0; + var $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0, $549 = 0; + var $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0, $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0, $567 = 0; + var $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0, $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0, $585 = 0; + var $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0, $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0, $602 = 0; + var $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0, $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0, $620 = 0; + var $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0, $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0, $636 = 0, $637 = 0, $638 = 0, $639 = 0; + var $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0, $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0, $654 = 0, $655 = 0, $656 = 0, $657 = 0; + var $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0, $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0, $672 = 0, $673 = 0, $674 = 0, $675 = 0; + var $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0, $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0, $690 = 0, $691 = 0, $692 = 0, $693 = 0; + var $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0, $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0, $708 = 0, $709 = 0, $71 = 0, $710 = 0; + var $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0, $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0, $726 = 0, $727 = 0, $728 = 0, $729 = 0; + var $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0, $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0, $744 = 0, $745 = 0, $746 = 0, $747 = 0; + var $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0, $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0, $762 = 0, $763 = 0, $764 = 0, $765 = 0; + var $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0, $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0, $780 = 0, $781 = 0, $782 = 0, $783 = 0; + var $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0, $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0, $799 = 0, $8 = 0, $80 = 0, $800 = 0; + var $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0, $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0, $816 = 0, $817 = 0, $818 = 0, $819 = 0; + var $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0, $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0, $834 = 0, $835 = 0, $836 = 0, $837 = 0; + var $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0, $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0, $852 = 0, $853 = 0, $854 = 0, $855 = 0; + var $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0, $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0, $870 = 0, $871 = 0, $872 = 0, $873 = 0; + var $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0, $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0, $889 = 0, $89 = 0, $890 = 0, $891 = 0; + var $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0, $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0, $906 = 0, $907 = 0, $908 = 0, $909 = 0; + var $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0, $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0, $924 = 0, $925 = 0, $926 = 0, $927 = 0; + var $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0, $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0, $942 = 0, $943 = 0, $944 = 0, $945 = 0; + var $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $954 = 0, $955 = 0, $956 = 0, $957 = 0, $958 = 0, $959 = 0, $96 = 0, $960 = 0, $961 = 0, $962 = 0, $963 = 0; + var $964 = 0, $965 = 0, $966 = 0, $967 = 0, $968 = 0, $969 = 0, $97 = 0, $970 = 0, $971 = 0, $972 = 0, $973 = 0, $974 = 0, $975 = 0, $976 = 0, $977 = 0, $978 = 0, $979 = 0, $98 = 0, $980 = 0, $981 = 0; + var $982 = 0, $983 = 0, $984 = 0, $985 = 0, $986 = 0, $987 = 0, $988 = 0, $989 = 0, $99 = 0, $990 = 0, $991 = 0, $992 = 0, $993 = 0, $994 = 0, $995 = 0, $996 = 0, $997 = 0, $998 = 0, $999 = 0, label = 0; + var sp = 0; + sp = STACKTOP; + $0 = $in; + $1 = $0; + $2 = HEAP32[$1>>2]|0; + $3 = (($0) + 4)|0; + $4 = $3; + $5 = HEAP32[$4>>2]|0; + $6 = (_bitshift64Ashr(0,($2|0),32)|0); + $7 = tempRet0; + $8 = (___muldi3(($6|0),($7|0),($6|0),($7|0))|0); + $9 = tempRet0; + $10 = $output; + $11 = $10; + HEAP32[$11>>2] = $8; + $12 = (($10) + 4)|0; + $13 = $12; + HEAP32[$13>>2] = $9; + $14 = $in; + $15 = $14; + $16 = HEAP32[$15>>2]|0; + $17 = (($14) + 4)|0; + $18 = $17; + $19 = HEAP32[$18>>2]|0; + $20 = (_bitshift64Ashr(0,($16|0),31)|0); + $21 = tempRet0; + $22 = (($in) + 8|0); + $23 = $22; + $24 = $23; + $25 = HEAP32[$24>>2]|0; + $26 = (($23) + 4)|0; + $27 = $26; + $28 = HEAP32[$27>>2]|0; + $29 = (_bitshift64Ashr(0,($25|0),32)|0); + $30 = tempRet0; + $31 = (___muldi3(($29|0),($30|0),($20|0),($21|0))|0); + $32 = tempRet0; + $33 = (($output) + 8|0); + $34 = $33; + $35 = $34; + HEAP32[$35>>2] = $31; + $36 = (($34) + 4)|0; + $37 = $36; + HEAP32[$37>>2] = $32; + $38 = $22; + $39 = $38; + $40 = HEAP32[$39>>2]|0; + $41 = (($38) + 4)|0; + $42 = $41; + $43 = HEAP32[$42>>2]|0; + $44 = (_bitshift64Ashr(0,($40|0),32)|0); + $45 = tempRet0; + $46 = (___muldi3(($44|0),($45|0),($44|0),($45|0))|0); + $47 = tempRet0; + $48 = $in; + $49 = $48; + $50 = HEAP32[$49>>2]|0; + $51 = (($48) + 4)|0; + $52 = $51; + $53 = HEAP32[$52>>2]|0; + $54 = (_bitshift64Ashr(0,($50|0),32)|0); + $55 = tempRet0; + $56 = (($in) + 16|0); + $57 = $56; + $58 = $57; + $59 = HEAP32[$58>>2]|0; + $60 = (($57) + 4)|0; + $61 = $60; + $62 = HEAP32[$61>>2]|0; + $63 = (_bitshift64Ashr(0,($59|0),32)|0); + $64 = tempRet0; + $65 = (___muldi3(($63|0),($64|0),($54|0),($55|0))|0); + $66 = tempRet0; + $67 = (_i64Add(($65|0),($66|0),($46|0),($47|0))|0); + $68 = tempRet0; + $69 = (_bitshift64Shl(($67|0),($68|0),1)|0); + $70 = tempRet0; + $71 = (($output) + 16|0); + $72 = $71; + $73 = $72; + HEAP32[$73>>2] = $69; + $74 = (($72) + 4)|0; + $75 = $74; + HEAP32[$75>>2] = $70; + $76 = $22; + $77 = $76; + $78 = HEAP32[$77>>2]|0; + $79 = (($76) + 4)|0; + $80 = $79; + $81 = HEAP32[$80>>2]|0; + $82 = (_bitshift64Ashr(0,($78|0),32)|0); + $83 = tempRet0; + $84 = $56; + $85 = $84; + $86 = HEAP32[$85>>2]|0; + $87 = (($84) + 4)|0; + $88 = $87; + $89 = HEAP32[$88>>2]|0; + $90 = (_bitshift64Ashr(0,($86|0),32)|0); + $91 = tempRet0; + $92 = (___muldi3(($90|0),($91|0),($82|0),($83|0))|0); + $93 = tempRet0; + $94 = $in; + $95 = $94; + $96 = HEAP32[$95>>2]|0; + $97 = (($94) + 4)|0; + $98 = $97; + $99 = HEAP32[$98>>2]|0; + $100 = (_bitshift64Ashr(0,($96|0),32)|0); + $101 = tempRet0; + $102 = (($in) + 24|0); + $103 = $102; + $104 = $103; + $105 = HEAP32[$104>>2]|0; + $106 = (($103) + 4)|0; + $107 = $106; + $108 = HEAP32[$107>>2]|0; + $109 = (_bitshift64Ashr(0,($105|0),32)|0); + $110 = tempRet0; + $111 = (___muldi3(($109|0),($110|0),($100|0),($101|0))|0); + $112 = tempRet0; + $113 = (_i64Add(($111|0),($112|0),($92|0),($93|0))|0); + $114 = tempRet0; + $115 = (_bitshift64Shl(($113|0),($114|0),1)|0); + $116 = tempRet0; + $117 = (($output) + 24|0); + $118 = $117; + $119 = $118; + HEAP32[$119>>2] = $115; + $120 = (($118) + 4)|0; + $121 = $120; + HEAP32[$121>>2] = $116; + $122 = $56; + $123 = $122; + $124 = HEAP32[$123>>2]|0; + $125 = (($122) + 4)|0; + $126 = $125; + $127 = HEAP32[$126>>2]|0; + $128 = (_bitshift64Ashr(0,($124|0),32)|0); + $129 = tempRet0; + $130 = (___muldi3(($128|0),($129|0),($128|0),($129|0))|0); + $131 = tempRet0; + $132 = $22; + $133 = $132; + $134 = HEAP32[$133>>2]|0; + $135 = (($132) + 4)|0; + $136 = $135; + $137 = HEAP32[$136>>2]|0; + $138 = (_bitshift64Ashr(0,($134|0),30)|0); + $139 = tempRet0; + $140 = $102; + $141 = $140; + $142 = HEAP32[$141>>2]|0; + $143 = (($140) + 4)|0; + $144 = $143; + $145 = HEAP32[$144>>2]|0; + $146 = (_bitshift64Ashr(0,($142|0),32)|0); + $147 = tempRet0; + $148 = (___muldi3(($146|0),($147|0),($138|0),($139|0))|0); + $149 = tempRet0; + $150 = (_i64Add(($148|0),($149|0),($130|0),($131|0))|0); + $151 = tempRet0; + $152 = $in; + $153 = $152; + $154 = HEAP32[$153>>2]|0; + $155 = (($152) + 4)|0; + $156 = $155; + $157 = HEAP32[$156>>2]|0; + $158 = (_bitshift64Ashr(0,($154|0),31)|0); + $159 = tempRet0; + $160 = (($in) + 32|0); + $161 = $160; + $162 = $161; + $163 = HEAP32[$162>>2]|0; + $164 = (($161) + 4)|0; + $165 = $164; + $166 = HEAP32[$165>>2]|0; + $167 = (_bitshift64Ashr(0,($163|0),32)|0); + $168 = tempRet0; + $169 = (___muldi3(($167|0),($168|0),($158|0),($159|0))|0); + $170 = tempRet0; + $171 = (_i64Add(($150|0),($151|0),($169|0),($170|0))|0); + $172 = tempRet0; + $173 = (($output) + 32|0); + $174 = $173; + $175 = $174; + HEAP32[$175>>2] = $171; + $176 = (($174) + 4)|0; + $177 = $176; + HEAP32[$177>>2] = $172; + $178 = $56; + $179 = $178; + $180 = HEAP32[$179>>2]|0; + $181 = (($178) + 4)|0; + $182 = $181; + $183 = HEAP32[$182>>2]|0; + $184 = (_bitshift64Ashr(0,($180|0),32)|0); + $185 = tempRet0; + $186 = $102; + $187 = $186; + $188 = HEAP32[$187>>2]|0; + $189 = (($186) + 4)|0; + $190 = $189; + $191 = HEAP32[$190>>2]|0; + $192 = (_bitshift64Ashr(0,($188|0),32)|0); + $193 = tempRet0; + $194 = (___muldi3(($192|0),($193|0),($184|0),($185|0))|0); + $195 = tempRet0; + $196 = $22; + $197 = $196; + $198 = HEAP32[$197>>2]|0; + $199 = (($196) + 4)|0; + $200 = $199; + $201 = HEAP32[$200>>2]|0; + $202 = (_bitshift64Ashr(0,($198|0),32)|0); + $203 = tempRet0; + $204 = $160; + $205 = $204; + $206 = HEAP32[$205>>2]|0; + $207 = (($204) + 4)|0; + $208 = $207; + $209 = HEAP32[$208>>2]|0; + $210 = (_bitshift64Ashr(0,($206|0),32)|0); + $211 = tempRet0; + $212 = (___muldi3(($210|0),($211|0),($202|0),($203|0))|0); + $213 = tempRet0; + $214 = (_i64Add(($212|0),($213|0),($194|0),($195|0))|0); + $215 = tempRet0; + $216 = $in; + $217 = $216; + $218 = HEAP32[$217>>2]|0; + $219 = (($216) + 4)|0; + $220 = $219; + $221 = HEAP32[$220>>2]|0; + $222 = (_bitshift64Ashr(0,($218|0),32)|0); + $223 = tempRet0; + $224 = (($in) + 40|0); + $225 = $224; + $226 = $225; + $227 = HEAP32[$226>>2]|0; + $228 = (($225) + 4)|0; + $229 = $228; + $230 = HEAP32[$229>>2]|0; + $231 = (_bitshift64Ashr(0,($227|0),32)|0); + $232 = tempRet0; + $233 = (___muldi3(($231|0),($232|0),($222|0),($223|0))|0); + $234 = tempRet0; + $235 = (_i64Add(($214|0),($215|0),($233|0),($234|0))|0); + $236 = tempRet0; + $237 = (_bitshift64Shl(($235|0),($236|0),1)|0); + $238 = tempRet0; + $239 = (($output) + 40|0); + $240 = $239; + $241 = $240; + HEAP32[$241>>2] = $237; + $242 = (($240) + 4)|0; + $243 = $242; + HEAP32[$243>>2] = $238; + $244 = $102; + $245 = $244; + $246 = HEAP32[$245>>2]|0; + $247 = (($244) + 4)|0; + $248 = $247; + $249 = HEAP32[$248>>2]|0; + $250 = (_bitshift64Ashr(0,($246|0),32)|0); + $251 = tempRet0; + $252 = (___muldi3(($250|0),($251|0),($250|0),($251|0))|0); + $253 = tempRet0; + $254 = $56; + $255 = $254; + $256 = HEAP32[$255>>2]|0; + $257 = (($254) + 4)|0; + $258 = $257; + $259 = HEAP32[$258>>2]|0; + $260 = (_bitshift64Ashr(0,($256|0),32)|0); + $261 = tempRet0; + $262 = $160; + $263 = $262; + $264 = HEAP32[$263>>2]|0; + $265 = (($262) + 4)|0; + $266 = $265; + $267 = HEAP32[$266>>2]|0; + $268 = (_bitshift64Ashr(0,($264|0),32)|0); + $269 = tempRet0; + $270 = (___muldi3(($268|0),($269|0),($260|0),($261|0))|0); + $271 = tempRet0; + $272 = (_i64Add(($270|0),($271|0),($252|0),($253|0))|0); + $273 = tempRet0; + $274 = $in; + $275 = $274; + $276 = HEAP32[$275>>2]|0; + $277 = (($274) + 4)|0; + $278 = $277; + $279 = HEAP32[$278>>2]|0; + $280 = (_bitshift64Ashr(0,($276|0),32)|0); + $281 = tempRet0; + $282 = (($in) + 48|0); + $283 = $282; + $284 = $283; + $285 = HEAP32[$284>>2]|0; + $286 = (($283) + 4)|0; + $287 = $286; + $288 = HEAP32[$287>>2]|0; + $289 = (_bitshift64Ashr(0,($285|0),32)|0); + $290 = tempRet0; + $291 = (___muldi3(($289|0),($290|0),($280|0),($281|0))|0); + $292 = tempRet0; + $293 = (_i64Add(($272|0),($273|0),($291|0),($292|0))|0); + $294 = tempRet0; + $295 = $22; + $296 = $295; + $297 = HEAP32[$296>>2]|0; + $298 = (($295) + 4)|0; + $299 = $298; + $300 = HEAP32[$299>>2]|0; + $301 = (_bitshift64Ashr(0,($297|0),31)|0); + $302 = tempRet0; + $303 = $224; + $304 = $303; + $305 = HEAP32[$304>>2]|0; + $306 = (($303) + 4)|0; + $307 = $306; + $308 = HEAP32[$307>>2]|0; + $309 = (_bitshift64Ashr(0,($305|0),32)|0); + $310 = tempRet0; + $311 = (___muldi3(($309|0),($310|0),($301|0),($302|0))|0); + $312 = tempRet0; + $313 = (_i64Add(($293|0),($294|0),($311|0),($312|0))|0); + $314 = tempRet0; + $315 = (_bitshift64Shl(($313|0),($314|0),1)|0); + $316 = tempRet0; + $317 = (($output) + 48|0); + $318 = $317; + $319 = $318; + HEAP32[$319>>2] = $315; + $320 = (($318) + 4)|0; + $321 = $320; + HEAP32[$321>>2] = $316; + $322 = $102; + $323 = $322; + $324 = HEAP32[$323>>2]|0; + $325 = (($322) + 4)|0; + $326 = $325; + $327 = HEAP32[$326>>2]|0; + $328 = (_bitshift64Ashr(0,($324|0),32)|0); + $329 = tempRet0; + $330 = $160; + $331 = $330; + $332 = HEAP32[$331>>2]|0; + $333 = (($330) + 4)|0; + $334 = $333; + $335 = HEAP32[$334>>2]|0; + $336 = (_bitshift64Ashr(0,($332|0),32)|0); + $337 = tempRet0; + $338 = (___muldi3(($336|0),($337|0),($328|0),($329|0))|0); + $339 = tempRet0; + $340 = $56; + $341 = $340; + $342 = HEAP32[$341>>2]|0; + $343 = (($340) + 4)|0; + $344 = $343; + $345 = HEAP32[$344>>2]|0; + $346 = (_bitshift64Ashr(0,($342|0),32)|0); + $347 = tempRet0; + $348 = $224; + $349 = $348; + $350 = HEAP32[$349>>2]|0; + $351 = (($348) + 4)|0; + $352 = $351; + $353 = HEAP32[$352>>2]|0; + $354 = (_bitshift64Ashr(0,($350|0),32)|0); + $355 = tempRet0; + $356 = (___muldi3(($354|0),($355|0),($346|0),($347|0))|0); + $357 = tempRet0; + $358 = (_i64Add(($356|0),($357|0),($338|0),($339|0))|0); + $359 = tempRet0; + $360 = $22; + $361 = $360; + $362 = HEAP32[$361>>2]|0; + $363 = (($360) + 4)|0; + $364 = $363; + $365 = HEAP32[$364>>2]|0; + $366 = (_bitshift64Ashr(0,($362|0),32)|0); + $367 = tempRet0; + $368 = $282; + $369 = $368; + $370 = HEAP32[$369>>2]|0; + $371 = (($368) + 4)|0; + $372 = $371; + $373 = HEAP32[$372>>2]|0; + $374 = (_bitshift64Ashr(0,($370|0),32)|0); + $375 = tempRet0; + $376 = (___muldi3(($374|0),($375|0),($366|0),($367|0))|0); + $377 = tempRet0; + $378 = (_i64Add(($358|0),($359|0),($376|0),($377|0))|0); + $379 = tempRet0; + $380 = $in; + $381 = $380; + $382 = HEAP32[$381>>2]|0; + $383 = (($380) + 4)|0; + $384 = $383; + $385 = HEAP32[$384>>2]|0; + $386 = (_bitshift64Ashr(0,($382|0),32)|0); + $387 = tempRet0; + $388 = (($in) + 56|0); + $389 = $388; + $390 = $389; + $391 = HEAP32[$390>>2]|0; + $392 = (($389) + 4)|0; + $393 = $392; + $394 = HEAP32[$393>>2]|0; + $395 = (_bitshift64Ashr(0,($391|0),32)|0); + $396 = tempRet0; + $397 = (___muldi3(($395|0),($396|0),($386|0),($387|0))|0); + $398 = tempRet0; + $399 = (_i64Add(($378|0),($379|0),($397|0),($398|0))|0); + $400 = tempRet0; + $401 = (_bitshift64Shl(($399|0),($400|0),1)|0); + $402 = tempRet0; + $403 = (($output) + 56|0); + $404 = $403; + $405 = $404; + HEAP32[$405>>2] = $401; + $406 = (($404) + 4)|0; + $407 = $406; + HEAP32[$407>>2] = $402; + $408 = $160; + $409 = $408; + $410 = HEAP32[$409>>2]|0; + $411 = (($408) + 4)|0; + $412 = $411; + $413 = HEAP32[$412>>2]|0; + $414 = (_bitshift64Ashr(0,($410|0),32)|0); + $415 = tempRet0; + $416 = (___muldi3(($414|0),($415|0),($414|0),($415|0))|0); + $417 = tempRet0; + $418 = $56; + $419 = $418; + $420 = HEAP32[$419>>2]|0; + $421 = (($418) + 4)|0; + $422 = $421; + $423 = HEAP32[$422>>2]|0; + $424 = (_bitshift64Ashr(0,($420|0),32)|0); + $425 = tempRet0; + $426 = $282; + $427 = $426; + $428 = HEAP32[$427>>2]|0; + $429 = (($426) + 4)|0; + $430 = $429; + $431 = HEAP32[$430>>2]|0; + $432 = (_bitshift64Ashr(0,($428|0),32)|0); + $433 = tempRet0; + $434 = (___muldi3(($432|0),($433|0),($424|0),($425|0))|0); + $435 = tempRet0; + $436 = $in; + $437 = $436; + $438 = HEAP32[$437>>2]|0; + $439 = (($436) + 4)|0; + $440 = $439; + $441 = HEAP32[$440>>2]|0; + $442 = (_bitshift64Ashr(0,($438|0),32)|0); + $443 = tempRet0; + $444 = (($in) + 64|0); + $445 = $444; + $446 = $445; + $447 = HEAP32[$446>>2]|0; + $448 = (($445) + 4)|0; + $449 = $448; + $450 = HEAP32[$449>>2]|0; + $451 = (_bitshift64Ashr(0,($447|0),32)|0); + $452 = tempRet0; + $453 = (___muldi3(($451|0),($452|0),($442|0),($443|0))|0); + $454 = tempRet0; + $455 = (_i64Add(($453|0),($454|0),($434|0),($435|0))|0); + $456 = tempRet0; + $457 = $22; + $458 = $457; + $459 = HEAP32[$458>>2]|0; + $460 = (($457) + 4)|0; + $461 = $460; + $462 = HEAP32[$461>>2]|0; + $463 = (_bitshift64Ashr(0,($459|0),32)|0); + $464 = tempRet0; + $465 = $388; + $466 = $465; + $467 = HEAP32[$466>>2]|0; + $468 = (($465) + 4)|0; + $469 = $468; + $470 = HEAP32[$469>>2]|0; + $471 = (_bitshift64Ashr(0,($467|0),32)|0); + $472 = tempRet0; + $473 = (___muldi3(($471|0),($472|0),($463|0),($464|0))|0); + $474 = tempRet0; + $475 = $102; + $476 = $475; + $477 = HEAP32[$476>>2]|0; + $478 = (($475) + 4)|0; + $479 = $478; + $480 = HEAP32[$479>>2]|0; + $481 = (_bitshift64Ashr(0,($477|0),32)|0); + $482 = tempRet0; + $483 = $224; + $484 = $483; + $485 = HEAP32[$484>>2]|0; + $486 = (($483) + 4)|0; + $487 = $486; + $488 = HEAP32[$487>>2]|0; + $489 = (_bitshift64Ashr(0,($485|0),32)|0); + $490 = tempRet0; + $491 = (___muldi3(($489|0),($490|0),($481|0),($482|0))|0); + $492 = tempRet0; + $493 = (_i64Add(($491|0),($492|0),($473|0),($474|0))|0); + $494 = tempRet0; + $495 = (_bitshift64Shl(($493|0),($494|0),1)|0); + $496 = tempRet0; + $497 = (_i64Add(($455|0),($456|0),($495|0),($496|0))|0); + $498 = tempRet0; + $499 = (_bitshift64Shl(($497|0),($498|0),1)|0); + $500 = tempRet0; + $501 = (_i64Add(($499|0),($500|0),($416|0),($417|0))|0); + $502 = tempRet0; + $503 = (($output) + 64|0); + $504 = $503; + $505 = $504; + HEAP32[$505>>2] = $501; + $506 = (($504) + 4)|0; + $507 = $506; + HEAP32[$507>>2] = $502; + $508 = $160; + $509 = $508; + $510 = HEAP32[$509>>2]|0; + $511 = (($508) + 4)|0; + $512 = $511; + $513 = HEAP32[$512>>2]|0; + $514 = (_bitshift64Ashr(0,($510|0),32)|0); + $515 = tempRet0; + $516 = $224; + $517 = $516; + $518 = HEAP32[$517>>2]|0; + $519 = (($516) + 4)|0; + $520 = $519; + $521 = HEAP32[$520>>2]|0; + $522 = (_bitshift64Ashr(0,($518|0),32)|0); + $523 = tempRet0; + $524 = (___muldi3(($522|0),($523|0),($514|0),($515|0))|0); + $525 = tempRet0; + $526 = $102; + $527 = $526; + $528 = HEAP32[$527>>2]|0; + $529 = (($526) + 4)|0; + $530 = $529; + $531 = HEAP32[$530>>2]|0; + $532 = (_bitshift64Ashr(0,($528|0),32)|0); + $533 = tempRet0; + $534 = $282; + $535 = $534; + $536 = HEAP32[$535>>2]|0; + $537 = (($534) + 4)|0; + $538 = $537; + $539 = HEAP32[$538>>2]|0; + $540 = (_bitshift64Ashr(0,($536|0),32)|0); + $541 = tempRet0; + $542 = (___muldi3(($540|0),($541|0),($532|0),($533|0))|0); + $543 = tempRet0; + $544 = (_i64Add(($542|0),($543|0),($524|0),($525|0))|0); + $545 = tempRet0; + $546 = $56; + $547 = $546; + $548 = HEAP32[$547>>2]|0; + $549 = (($546) + 4)|0; + $550 = $549; + $551 = HEAP32[$550>>2]|0; + $552 = (_bitshift64Ashr(0,($548|0),32)|0); + $553 = tempRet0; + $554 = $388; + $555 = $554; + $556 = HEAP32[$555>>2]|0; + $557 = (($554) + 4)|0; + $558 = $557; + $559 = HEAP32[$558>>2]|0; + $560 = (_bitshift64Ashr(0,($556|0),32)|0); + $561 = tempRet0; + $562 = (___muldi3(($560|0),($561|0),($552|0),($553|0))|0); + $563 = tempRet0; + $564 = (_i64Add(($544|0),($545|0),($562|0),($563|0))|0); + $565 = tempRet0; + $566 = $22; + $567 = $566; + $568 = HEAP32[$567>>2]|0; + $569 = (($566) + 4)|0; + $570 = $569; + $571 = HEAP32[$570>>2]|0; + $572 = (_bitshift64Ashr(0,($568|0),32)|0); + $573 = tempRet0; + $574 = $444; + $575 = $574; + $576 = HEAP32[$575>>2]|0; + $577 = (($574) + 4)|0; + $578 = $577; + $579 = HEAP32[$578>>2]|0; + $580 = (_bitshift64Ashr(0,($576|0),32)|0); + $581 = tempRet0; + $582 = (___muldi3(($580|0),($581|0),($572|0),($573|0))|0); + $583 = tempRet0; + $584 = (_i64Add(($564|0),($565|0),($582|0),($583|0))|0); + $585 = tempRet0; + $586 = $in; + $587 = $586; + $588 = HEAP32[$587>>2]|0; + $589 = (($586) + 4)|0; + $590 = $589; + $591 = HEAP32[$590>>2]|0; + $592 = (_bitshift64Ashr(0,($588|0),32)|0); + $593 = tempRet0; + $594 = (($in) + 72|0); + $595 = $594; + $596 = $595; + $597 = HEAP32[$596>>2]|0; + $598 = (($595) + 4)|0; + $599 = $598; + $600 = HEAP32[$599>>2]|0; + $601 = (_bitshift64Ashr(0,($597|0),32)|0); + $602 = tempRet0; + $603 = (___muldi3(($601|0),($602|0),($592|0),($593|0))|0); + $604 = tempRet0; + $605 = (_i64Add(($584|0),($585|0),($603|0),($604|0))|0); + $606 = tempRet0; + $607 = (_bitshift64Shl(($605|0),($606|0),1)|0); + $608 = tempRet0; + $609 = (($output) + 72|0); + $610 = $609; + $611 = $610; + HEAP32[$611>>2] = $607; + $612 = (($610) + 4)|0; + $613 = $612; + HEAP32[$613>>2] = $608; + $614 = $224; + $615 = $614; + $616 = HEAP32[$615>>2]|0; + $617 = (($614) + 4)|0; + $618 = $617; + $619 = HEAP32[$618>>2]|0; + $620 = (_bitshift64Ashr(0,($616|0),32)|0); + $621 = tempRet0; + $622 = (___muldi3(($620|0),($621|0),($620|0),($621|0))|0); + $623 = tempRet0; + $624 = $160; + $625 = $624; + $626 = HEAP32[$625>>2]|0; + $627 = (($624) + 4)|0; + $628 = $627; + $629 = HEAP32[$628>>2]|0; + $630 = (_bitshift64Ashr(0,($626|0),32)|0); + $631 = tempRet0; + $632 = $282; + $633 = $632; + $634 = HEAP32[$633>>2]|0; + $635 = (($632) + 4)|0; + $636 = $635; + $637 = HEAP32[$636>>2]|0; + $638 = (_bitshift64Ashr(0,($634|0),32)|0); + $639 = tempRet0; + $640 = (___muldi3(($638|0),($639|0),($630|0),($631|0))|0); + $641 = tempRet0; + $642 = (_i64Add(($640|0),($641|0),($622|0),($623|0))|0); + $643 = tempRet0; + $644 = $56; + $645 = $644; + $646 = HEAP32[$645>>2]|0; + $647 = (($644) + 4)|0; + $648 = $647; + $649 = HEAP32[$648>>2]|0; + $650 = (_bitshift64Ashr(0,($646|0),32)|0); + $651 = tempRet0; + $652 = $444; + $653 = $652; + $654 = HEAP32[$653>>2]|0; + $655 = (($652) + 4)|0; + $656 = $655; + $657 = HEAP32[$656>>2]|0; + $658 = (_bitshift64Ashr(0,($654|0),32)|0); + $659 = tempRet0; + $660 = (___muldi3(($658|0),($659|0),($650|0),($651|0))|0); + $661 = tempRet0; + $662 = (_i64Add(($642|0),($643|0),($660|0),($661|0))|0); + $663 = tempRet0; + $664 = $102; + $665 = $664; + $666 = HEAP32[$665>>2]|0; + $667 = (($664) + 4)|0; + $668 = $667; + $669 = HEAP32[$668>>2]|0; + $670 = (_bitshift64Ashr(0,($666|0),32)|0); + $671 = tempRet0; + $672 = $388; + $673 = $672; + $674 = HEAP32[$673>>2]|0; + $675 = (($672) + 4)|0; + $676 = $675; + $677 = HEAP32[$676>>2]|0; + $678 = (_bitshift64Ashr(0,($674|0),32)|0); + $679 = tempRet0; + $680 = (___muldi3(($678|0),($679|0),($670|0),($671|0))|0); + $681 = tempRet0; + $682 = $22; + $683 = $682; + $684 = HEAP32[$683>>2]|0; + $685 = (($682) + 4)|0; + $686 = $685; + $687 = HEAP32[$686>>2]|0; + $688 = (_bitshift64Ashr(0,($684|0),32)|0); + $689 = tempRet0; + $690 = $594; + $691 = $690; + $692 = HEAP32[$691>>2]|0; + $693 = (($690) + 4)|0; + $694 = $693; + $695 = HEAP32[$694>>2]|0; + $696 = (_bitshift64Ashr(0,($692|0),32)|0); + $697 = tempRet0; + $698 = (___muldi3(($696|0),($697|0),($688|0),($689|0))|0); + $699 = tempRet0; + $700 = (_i64Add(($698|0),($699|0),($680|0),($681|0))|0); + $701 = tempRet0; + $702 = (_bitshift64Shl(($700|0),($701|0),1)|0); + $703 = tempRet0; + $704 = (_i64Add(($662|0),($663|0),($702|0),($703|0))|0); + $705 = tempRet0; + $706 = (_bitshift64Shl(($704|0),($705|0),1)|0); + $707 = tempRet0; + $708 = (($output) + 80|0); + $709 = $708; + $710 = $709; + HEAP32[$710>>2] = $706; + $711 = (($709) + 4)|0; + $712 = $711; + HEAP32[$712>>2] = $707; + $713 = $224; + $714 = $713; + $715 = HEAP32[$714>>2]|0; + $716 = (($713) + 4)|0; + $717 = $716; + $718 = HEAP32[$717>>2]|0; + $719 = (_bitshift64Ashr(0,($715|0),32)|0); + $720 = tempRet0; + $721 = $282; + $722 = $721; + $723 = HEAP32[$722>>2]|0; + $724 = (($721) + 4)|0; + $725 = $724; + $726 = HEAP32[$725>>2]|0; + $727 = (_bitshift64Ashr(0,($723|0),32)|0); + $728 = tempRet0; + $729 = (___muldi3(($727|0),($728|0),($719|0),($720|0))|0); + $730 = tempRet0; + $731 = $160; + $732 = $731; + $733 = HEAP32[$732>>2]|0; + $734 = (($731) + 4)|0; + $735 = $734; + $736 = HEAP32[$735>>2]|0; + $737 = (_bitshift64Ashr(0,($733|0),32)|0); + $738 = tempRet0; + $739 = $388; + $740 = $739; + $741 = HEAP32[$740>>2]|0; + $742 = (($739) + 4)|0; + $743 = $742; + $744 = HEAP32[$743>>2]|0; + $745 = (_bitshift64Ashr(0,($741|0),32)|0); + $746 = tempRet0; + $747 = (___muldi3(($745|0),($746|0),($737|0),($738|0))|0); + $748 = tempRet0; + $749 = (_i64Add(($747|0),($748|0),($729|0),($730|0))|0); + $750 = tempRet0; + $751 = $102; + $752 = $751; + $753 = HEAP32[$752>>2]|0; + $754 = (($751) + 4)|0; + $755 = $754; + $756 = HEAP32[$755>>2]|0; + $757 = (_bitshift64Ashr(0,($753|0),32)|0); + $758 = tempRet0; + $759 = $444; + $760 = $759; + $761 = HEAP32[$760>>2]|0; + $762 = (($759) + 4)|0; + $763 = $762; + $764 = HEAP32[$763>>2]|0; + $765 = (_bitshift64Ashr(0,($761|0),32)|0); + $766 = tempRet0; + $767 = (___muldi3(($765|0),($766|0),($757|0),($758|0))|0); + $768 = tempRet0; + $769 = (_i64Add(($749|0),($750|0),($767|0),($768|0))|0); + $770 = tempRet0; + $771 = $56; + $772 = $771; + $773 = HEAP32[$772>>2]|0; + $774 = (($771) + 4)|0; + $775 = $774; + $776 = HEAP32[$775>>2]|0; + $777 = (_bitshift64Ashr(0,($773|0),32)|0); + $778 = tempRet0; + $779 = $594; + $780 = $779; + $781 = HEAP32[$780>>2]|0; + $782 = (($779) + 4)|0; + $783 = $782; + $784 = HEAP32[$783>>2]|0; + $785 = (_bitshift64Ashr(0,($781|0),32)|0); + $786 = tempRet0; + $787 = (___muldi3(($785|0),($786|0),($777|0),($778|0))|0); + $788 = tempRet0; + $789 = (_i64Add(($769|0),($770|0),($787|0),($788|0))|0); + $790 = tempRet0; + $791 = (_bitshift64Shl(($789|0),($790|0),1)|0); + $792 = tempRet0; + $793 = (($output) + 88|0); + $794 = $793; + $795 = $794; + HEAP32[$795>>2] = $791; + $796 = (($794) + 4)|0; + $797 = $796; + HEAP32[$797>>2] = $792; + $798 = $282; + $799 = $798; + $800 = HEAP32[$799>>2]|0; + $801 = (($798) + 4)|0; + $802 = $801; + $803 = HEAP32[$802>>2]|0; + $804 = (_bitshift64Ashr(0,($800|0),32)|0); + $805 = tempRet0; + $806 = (___muldi3(($804|0),($805|0),($804|0),($805|0))|0); + $807 = tempRet0; + $808 = $160; + $809 = $808; + $810 = HEAP32[$809>>2]|0; + $811 = (($808) + 4)|0; + $812 = $811; + $813 = HEAP32[$812>>2]|0; + $814 = (_bitshift64Ashr(0,($810|0),32)|0); + $815 = tempRet0; + $816 = $444; + $817 = $816; + $818 = HEAP32[$817>>2]|0; + $819 = (($816) + 4)|0; + $820 = $819; + $821 = HEAP32[$820>>2]|0; + $822 = (_bitshift64Ashr(0,($818|0),32)|0); + $823 = tempRet0; + $824 = (___muldi3(($822|0),($823|0),($814|0),($815|0))|0); + $825 = tempRet0; + $826 = $224; + $827 = $826; + $828 = HEAP32[$827>>2]|0; + $829 = (($826) + 4)|0; + $830 = $829; + $831 = HEAP32[$830>>2]|0; + $832 = (_bitshift64Ashr(0,($828|0),32)|0); + $833 = tempRet0; + $834 = $388; + $835 = $834; + $836 = HEAP32[$835>>2]|0; + $837 = (($834) + 4)|0; + $838 = $837; + $839 = HEAP32[$838>>2]|0; + $840 = (_bitshift64Ashr(0,($836|0),32)|0); + $841 = tempRet0; + $842 = (___muldi3(($840|0),($841|0),($832|0),($833|0))|0); + $843 = tempRet0; + $844 = $102; + $845 = $844; + $846 = HEAP32[$845>>2]|0; + $847 = (($844) + 4)|0; + $848 = $847; + $849 = HEAP32[$848>>2]|0; + $850 = (_bitshift64Ashr(0,($846|0),32)|0); + $851 = tempRet0; + $852 = $594; + $853 = $852; + $854 = HEAP32[$853>>2]|0; + $855 = (($852) + 4)|0; + $856 = $855; + $857 = HEAP32[$856>>2]|0; + $858 = (_bitshift64Ashr(0,($854|0),32)|0); + $859 = tempRet0; + $860 = (___muldi3(($858|0),($859|0),($850|0),($851|0))|0); + $861 = tempRet0; + $862 = (_i64Add(($860|0),($861|0),($842|0),($843|0))|0); + $863 = tempRet0; + $864 = (_bitshift64Shl(($862|0),($863|0),1)|0); + $865 = tempRet0; + $866 = (_i64Add(($864|0),($865|0),($824|0),($825|0))|0); + $867 = tempRet0; + $868 = (_bitshift64Shl(($866|0),($867|0),1)|0); + $869 = tempRet0; + $870 = (_i64Add(($868|0),($869|0),($806|0),($807|0))|0); + $871 = tempRet0; + $872 = (($output) + 96|0); + $873 = $872; + $874 = $873; + HEAP32[$874>>2] = $870; + $875 = (($873) + 4)|0; + $876 = $875; + HEAP32[$876>>2] = $871; + $877 = $282; + $878 = $877; + $879 = HEAP32[$878>>2]|0; + $880 = (($877) + 4)|0; + $881 = $880; + $882 = HEAP32[$881>>2]|0; + $883 = (_bitshift64Ashr(0,($879|0),32)|0); + $884 = tempRet0; + $885 = $388; + $886 = $885; + $887 = HEAP32[$886>>2]|0; + $888 = (($885) + 4)|0; + $889 = $888; + $890 = HEAP32[$889>>2]|0; + $891 = (_bitshift64Ashr(0,($887|0),32)|0); + $892 = tempRet0; + $893 = (___muldi3(($891|0),($892|0),($883|0),($884|0))|0); + $894 = tempRet0; + $895 = $224; + $896 = $895; + $897 = HEAP32[$896>>2]|0; + $898 = (($895) + 4)|0; + $899 = $898; + $900 = HEAP32[$899>>2]|0; + $901 = (_bitshift64Ashr(0,($897|0),32)|0); + $902 = tempRet0; + $903 = $444; + $904 = $903; + $905 = HEAP32[$904>>2]|0; + $906 = (($903) + 4)|0; + $907 = $906; + $908 = HEAP32[$907>>2]|0; + $909 = (_bitshift64Ashr(0,($905|0),32)|0); + $910 = tempRet0; + $911 = (___muldi3(($909|0),($910|0),($901|0),($902|0))|0); + $912 = tempRet0; + $913 = (_i64Add(($911|0),($912|0),($893|0),($894|0))|0); + $914 = tempRet0; + $915 = $160; + $916 = $915; + $917 = HEAP32[$916>>2]|0; + $918 = (($915) + 4)|0; + $919 = $918; + $920 = HEAP32[$919>>2]|0; + $921 = (_bitshift64Ashr(0,($917|0),32)|0); + $922 = tempRet0; + $923 = $594; + $924 = $923; + $925 = HEAP32[$924>>2]|0; + $926 = (($923) + 4)|0; + $927 = $926; + $928 = HEAP32[$927>>2]|0; + $929 = (_bitshift64Ashr(0,($925|0),32)|0); + $930 = tempRet0; + $931 = (___muldi3(($929|0),($930|0),($921|0),($922|0))|0); + $932 = tempRet0; + $933 = (_i64Add(($913|0),($914|0),($931|0),($932|0))|0); + $934 = tempRet0; + $935 = (_bitshift64Shl(($933|0),($934|0),1)|0); + $936 = tempRet0; + $937 = (($output) + 104|0); + $938 = $937; + $939 = $938; + HEAP32[$939>>2] = $935; + $940 = (($938) + 4)|0; + $941 = $940; + HEAP32[$941>>2] = $936; + $942 = $388; + $943 = $942; + $944 = HEAP32[$943>>2]|0; + $945 = (($942) + 4)|0; + $946 = $945; + $947 = HEAP32[$946>>2]|0; + $948 = (_bitshift64Ashr(0,($944|0),32)|0); + $949 = tempRet0; + $950 = (___muldi3(($948|0),($949|0),($948|0),($949|0))|0); + $951 = tempRet0; + $952 = $282; + $953 = $952; + $954 = HEAP32[$953>>2]|0; + $955 = (($952) + 4)|0; + $956 = $955; + $957 = HEAP32[$956>>2]|0; + $958 = (_bitshift64Ashr(0,($954|0),32)|0); + $959 = tempRet0; + $960 = $444; + $961 = $960; + $962 = HEAP32[$961>>2]|0; + $963 = (($960) + 4)|0; + $964 = $963; + $965 = HEAP32[$964>>2]|0; + $966 = (_bitshift64Ashr(0,($962|0),32)|0); + $967 = tempRet0; + $968 = (___muldi3(($966|0),($967|0),($958|0),($959|0))|0); + $969 = tempRet0; + $970 = (_i64Add(($968|0),($969|0),($950|0),($951|0))|0); + $971 = tempRet0; + $972 = $224; + $973 = $972; + $974 = HEAP32[$973>>2]|0; + $975 = (($972) + 4)|0; + $976 = $975; + $977 = HEAP32[$976>>2]|0; + $978 = (_bitshift64Ashr(0,($974|0),31)|0); + $979 = tempRet0; + $980 = $594; + $981 = $980; + $982 = HEAP32[$981>>2]|0; + $983 = (($980) + 4)|0; + $984 = $983; + $985 = HEAP32[$984>>2]|0; + $986 = (_bitshift64Ashr(0,($982|0),32)|0); + $987 = tempRet0; + $988 = (___muldi3(($986|0),($987|0),($978|0),($979|0))|0); + $989 = tempRet0; + $990 = (_i64Add(($970|0),($971|0),($988|0),($989|0))|0); + $991 = tempRet0; + $992 = (_bitshift64Shl(($990|0),($991|0),1)|0); + $993 = tempRet0; + $994 = (($output) + 112|0); + $995 = $994; + $996 = $995; + HEAP32[$996>>2] = $992; + $997 = (($995) + 4)|0; + $998 = $997; + HEAP32[$998>>2] = $993; + $999 = $388; + $1000 = $999; + $1001 = HEAP32[$1000>>2]|0; + $1002 = (($999) + 4)|0; + $1003 = $1002; + $1004 = HEAP32[$1003>>2]|0; + $1005 = (_bitshift64Ashr(0,($1001|0),32)|0); + $1006 = tempRet0; + $1007 = $444; + $1008 = $1007; + $1009 = HEAP32[$1008>>2]|0; + $1010 = (($1007) + 4)|0; + $1011 = $1010; + $1012 = HEAP32[$1011>>2]|0; + $1013 = (_bitshift64Ashr(0,($1009|0),32)|0); + $1014 = tempRet0; + $1015 = (___muldi3(($1013|0),($1014|0),($1005|0),($1006|0))|0); + $1016 = tempRet0; + $1017 = $282; + $1018 = $1017; + $1019 = HEAP32[$1018>>2]|0; + $1020 = (($1017) + 4)|0; + $1021 = $1020; + $1022 = HEAP32[$1021>>2]|0; + $1023 = (_bitshift64Ashr(0,($1019|0),32)|0); + $1024 = tempRet0; + $1025 = $594; + $1026 = $1025; + $1027 = HEAP32[$1026>>2]|0; + $1028 = (($1025) + 4)|0; + $1029 = $1028; + $1030 = HEAP32[$1029>>2]|0; + $1031 = (_bitshift64Ashr(0,($1027|0),32)|0); + $1032 = tempRet0; + $1033 = (___muldi3(($1031|0),($1032|0),($1023|0),($1024|0))|0); + $1034 = tempRet0; + $1035 = (_i64Add(($1033|0),($1034|0),($1015|0),($1016|0))|0); + $1036 = tempRet0; + $1037 = (_bitshift64Shl(($1035|0),($1036|0),1)|0); + $1038 = tempRet0; + $1039 = (($output) + 120|0); + $1040 = $1039; + $1041 = $1040; + HEAP32[$1041>>2] = $1037; + $1042 = (($1040) + 4)|0; + $1043 = $1042; + HEAP32[$1043>>2] = $1038; + $1044 = $444; + $1045 = $1044; + $1046 = HEAP32[$1045>>2]|0; + $1047 = (($1044) + 4)|0; + $1048 = $1047; + $1049 = HEAP32[$1048>>2]|0; + $1050 = (_bitshift64Ashr(0,($1046|0),32)|0); + $1051 = tempRet0; + $1052 = (___muldi3(($1050|0),($1051|0),($1050|0),($1051|0))|0); + $1053 = tempRet0; + $1054 = $388; + $1055 = $1054; + $1056 = HEAP32[$1055>>2]|0; + $1057 = (($1054) + 4)|0; + $1058 = $1057; + $1059 = HEAP32[$1058>>2]|0; + $1060 = (_bitshift64Ashr(0,($1056|0),30)|0); + $1061 = tempRet0; + $1062 = $594; + $1063 = $1062; + $1064 = HEAP32[$1063>>2]|0; + $1065 = (($1062) + 4)|0; + $1066 = $1065; + $1067 = HEAP32[$1066>>2]|0; + $1068 = (_bitshift64Ashr(0,($1064|0),32)|0); + $1069 = tempRet0; + $1070 = (___muldi3(($1068|0),($1069|0),($1060|0),($1061|0))|0); + $1071 = tempRet0; + $1072 = (_i64Add(($1070|0),($1071|0),($1052|0),($1053|0))|0); + $1073 = tempRet0; + $1074 = (($output) + 128|0); + $1075 = $1074; + $1076 = $1075; + HEAP32[$1076>>2] = $1072; + $1077 = (($1075) + 4)|0; + $1078 = $1077; + HEAP32[$1078>>2] = $1073; + $1079 = $444; + $1080 = $1079; + $1081 = HEAP32[$1080>>2]|0; + $1082 = (($1079) + 4)|0; + $1083 = $1082; + $1084 = HEAP32[$1083>>2]|0; + $1085 = (_bitshift64Ashr(0,($1081|0),31)|0); + $1086 = tempRet0; + $1087 = $594; + $1088 = $1087; + $1089 = HEAP32[$1088>>2]|0; + $1090 = (($1087) + 4)|0; + $1091 = $1090; + $1092 = HEAP32[$1091>>2]|0; + $1093 = (_bitshift64Ashr(0,($1089|0),32)|0); + $1094 = tempRet0; + $1095 = (___muldi3(($1093|0),($1094|0),($1085|0),($1086|0))|0); + $1096 = tempRet0; + $1097 = (($output) + 136|0); + $1098 = $1097; + $1099 = $1098; + HEAP32[$1099>>2] = $1095; + $1100 = (($1098) + 4)|0; + $1101 = $1100; + HEAP32[$1101>>2] = $1096; + $1102 = $594; + $1103 = $1102; + $1104 = HEAP32[$1103>>2]|0; + $1105 = (($1102) + 4)|0; + $1106 = $1105; + $1107 = HEAP32[$1106>>2]|0; + $1108 = (_bitshift64Ashr(0,($1104|0),32)|0); + $1109 = tempRet0; + $1110 = (_bitshift64Ashr(0,($1104|0),31)|0); + $1111 = tempRet0; + $1112 = (___muldi3(($1110|0),($1111|0),($1108|0),($1109|0))|0); + $1113 = tempRet0; + $1114 = (($output) + 144|0); + $1115 = $1114; + $1116 = $1115; + HEAP32[$1116>>2] = $1112; + $1117 = (($1115) + 4)|0; + $1118 = $1117; + HEAP32[$1118>>2] = $1113; + STACKTOP = sp;return; +} +function _div_by_2_26($0,$1) { + $0 = $0|0; + $1 = $1|0; + var $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0; + sp = STACKTOP; + $2 = $1 >> 31; + $3 = $2 >>> 6; + $4 = (_i64Add(($3|0),0,($0|0),($1|0))|0); + $5 = tempRet0; + $6 = (_bitshift64Ashr(($4|0),($5|0),26)|0); + $7 = tempRet0; + tempRet0 = $7; + STACKTOP = sp;return ($6|0); +} +function _div_by_2_25($0,$1) { + $0 = $0|0; + $1 = $1|0; + var $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, label = 0, sp = 0; + sp = STACKTOP; + $2 = $1 >> 31; + $3 = $2 >>> 7; + $4 = (_i64Add(($3|0),0,($0|0),($1|0))|0); + $5 = tempRet0; + $6 = (_bitshift64Ashr(($4|0),($5|0),25)|0); + $7 = tempRet0; + tempRet0 = $7; + STACKTOP = sp;return ($6|0); +} +function _crypto_sign_ed25519_ref10_fe_0($h) { + $h = $h|0; + var dest = 0, label = 0, sp = 0, stop = 0; + sp = STACKTOP; + dest=$h+0|0; stop=dest+40|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0)); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_1($h) { + $h = $h|0; + var $0 = 0, dest = 0, label = 0, sp = 0, stop = 0; + sp = STACKTOP; + HEAP32[$h>>2] = 1; + $0 = (($h) + 4|0); + dest=$0+0|0; stop=dest+36|0; do { HEAP32[dest>>2]=0|0; dest=dest+4|0; } while ((dest|0) < (stop|0)); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_add($h,$f,$g) { + $h = $h|0; + $f = $f|0; + $g = $g|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0; + var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = HEAP32[$g>>2]|0; + $20 = (($g) + 4|0); + $21 = HEAP32[$20>>2]|0; + $22 = (($g) + 8|0); + $23 = HEAP32[$22>>2]|0; + $24 = (($g) + 12|0); + $25 = HEAP32[$24>>2]|0; + $26 = (($g) + 16|0); + $27 = HEAP32[$26>>2]|0; + $28 = (($g) + 20|0); + $29 = HEAP32[$28>>2]|0; + $30 = (($g) + 24|0); + $31 = HEAP32[$30>>2]|0; + $32 = (($g) + 28|0); + $33 = HEAP32[$32>>2]|0; + $34 = (($g) + 32|0); + $35 = HEAP32[$34>>2]|0; + $36 = (($g) + 36|0); + $37 = HEAP32[$36>>2]|0; + $38 = (($19) + ($0))|0; + $39 = (($21) + ($2))|0; + $40 = (($23) + ($4))|0; + $41 = (($25) + ($6))|0; + $42 = (($27) + ($8))|0; + $43 = (($29) + ($10))|0; + $44 = (($31) + ($12))|0; + $45 = (($33) + ($14))|0; + $46 = (($35) + ($16))|0; + $47 = (($37) + ($18))|0; + HEAP32[$h>>2] = $38; + $48 = (($h) + 4|0); + HEAP32[$48>>2] = $39; + $49 = (($h) + 8|0); + HEAP32[$49>>2] = $40; + $50 = (($h) + 12|0); + HEAP32[$50>>2] = $41; + $51 = (($h) + 16|0); + HEAP32[$51>>2] = $42; + $52 = (($h) + 20|0); + HEAP32[$52>>2] = $43; + $53 = (($h) + 24|0); + HEAP32[$53>>2] = $44; + $54 = (($h) + 28|0); + HEAP32[$54>>2] = $45; + $55 = (($h) + 32|0); + HEAP32[$55>>2] = $46; + $56 = (($h) + 36|0); + HEAP32[$56>>2] = $47; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_cmov($f,$g,$b) { + $f = $f|0; + $g = $g|0; + $b = $b|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0; + var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0; + var $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = HEAP32[$g>>2]|0; + $20 = (($g) + 4|0); + $21 = HEAP32[$20>>2]|0; + $22 = (($g) + 8|0); + $23 = HEAP32[$22>>2]|0; + $24 = (($g) + 12|0); + $25 = HEAP32[$24>>2]|0; + $26 = (($g) + 16|0); + $27 = HEAP32[$26>>2]|0; + $28 = (($g) + 20|0); + $29 = HEAP32[$28>>2]|0; + $30 = (($g) + 24|0); + $31 = HEAP32[$30>>2]|0; + $32 = (($g) + 28|0); + $33 = HEAP32[$32>>2]|0; + $34 = (($g) + 32|0); + $35 = HEAP32[$34>>2]|0; + $36 = (($g) + 36|0); + $37 = HEAP32[$36>>2]|0; + $38 = $19 ^ $0; + $39 = $21 ^ $2; + $40 = $23 ^ $4; + $41 = $25 ^ $6; + $42 = $27 ^ $8; + $43 = $29 ^ $10; + $44 = $31 ^ $12; + $45 = $33 ^ $14; + $46 = $35 ^ $16; + $47 = $37 ^ $18; + $48 = (0 - ($b))|0; + $49 = $38 & $48; + $50 = $39 & $48; + $51 = $40 & $48; + $52 = $41 & $48; + $53 = $42 & $48; + $54 = $43 & $48; + $55 = $44 & $48; + $56 = $45 & $48; + $57 = $46 & $48; + $58 = $47 & $48; + $59 = $49 ^ $0; + HEAP32[$f>>2] = $59; + $60 = $50 ^ $2; + HEAP32[$1>>2] = $60; + $61 = $51 ^ $4; + HEAP32[$3>>2] = $61; + $62 = $52 ^ $6; + HEAP32[$5>>2] = $62; + $63 = $53 ^ $8; + HEAP32[$7>>2] = $63; + $64 = $54 ^ $10; + HEAP32[$9>>2] = $64; + $65 = $55 ^ $12; + HEAP32[$11>>2] = $65; + $66 = $56 ^ $14; + HEAP32[$13>>2] = $66; + $67 = $57 ^ $16; + HEAP32[$15>>2] = $67; + $68 = $58 ^ $18; + HEAP32[$17>>2] = $68; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_copy($h,$f) { + $h = $h|0; + $f = $f|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + HEAP32[$h>>2] = $0; + $19 = (($h) + 4|0); + HEAP32[$19>>2] = $2; + $20 = (($h) + 8|0); + HEAP32[$20>>2] = $4; + $21 = (($h) + 12|0); + HEAP32[$21>>2] = $6; + $22 = (($h) + 16|0); + HEAP32[$22>>2] = $8; + $23 = (($h) + 20|0); + HEAP32[$23>>2] = $10; + $24 = (($h) + 24|0); + HEAP32[$24>>2] = $12; + $25 = (($h) + 28|0); + HEAP32[$25>>2] = $14; + $26 = (($h) + 32|0); + HEAP32[$26>>2] = $16; + $27 = (($h) + 36|0); + HEAP32[$27>>2] = $18; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_frombytes($h,$s) { + $h = $h|0; + $s = $s|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0; + var $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0; + var $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0; + var $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0; + var $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (_load_4($s)|0); + $1 = tempRet0; + $2 = (($s) + 4|0); + $3 = (_load_3($2)|0); + $4 = tempRet0; + $5 = (_bitshift64Shl(($3|0),($4|0),6)|0); + $6 = tempRet0; + $7 = (($s) + 7|0); + $8 = (_load_3($7)|0); + $9 = tempRet0; + $10 = (_bitshift64Shl(($8|0),($9|0),5)|0); + $11 = tempRet0; + $12 = (($s) + 10|0); + $13 = (_load_3($12)|0); + $14 = tempRet0; + $15 = (_bitshift64Shl(($13|0),($14|0),3)|0); + $16 = tempRet0; + $17 = (($s) + 13|0); + $18 = (_load_3($17)|0); + $19 = tempRet0; + $20 = (_bitshift64Shl(($18|0),($19|0),2)|0); + $21 = tempRet0; + $22 = (($s) + 16|0); + $23 = (_load_4($22)|0); + $24 = tempRet0; + $25 = (($s) + 20|0); + $26 = (_load_3($25)|0); + $27 = tempRet0; + $28 = (_bitshift64Shl(($26|0),($27|0),7)|0); + $29 = tempRet0; + $30 = (($s) + 23|0); + $31 = (_load_3($30)|0); + $32 = tempRet0; + $33 = (_bitshift64Shl(($31|0),($32|0),5)|0); + $34 = tempRet0; + $35 = (($s) + 26|0); + $36 = (_load_3($35)|0); + $37 = tempRet0; + $38 = (_bitshift64Shl(($36|0),($37|0),4)|0); + $39 = tempRet0; + $40 = (($s) + 29|0); + $41 = (_load_3($40)|0); + $42 = tempRet0; + $43 = (_bitshift64Shl(($41|0),($42|0),2)|0); + $44 = tempRet0; + $45 = $43 & 33554428; + $46 = (_i64Add(($45|0),0,16777216,0)|0); + $47 = tempRet0; + $48 = (_bitshift64Lshr(($46|0),($47|0),25)|0); + $49 = tempRet0; + $50 = (___muldi3(($48|0),($49|0),19,0)|0); + $51 = tempRet0; + $52 = (_i64Add(($50|0),($51|0),($0|0),($1|0))|0); + $53 = tempRet0; + $54 = (_bitshift64Shl(($48|0),($49|0),25)|0); + $55 = tempRet0; + $56 = (_i64Add(($5|0),($6|0),16777216,0)|0); + $57 = tempRet0; + $58 = (_bitshift64Ashr(($56|0),($57|0),25)|0); + $59 = tempRet0; + $60 = (_i64Add(($58|0),($59|0),($10|0),($11|0))|0); + $61 = tempRet0; + $62 = (_bitshift64Shl(($58|0),($59|0),25)|0); + $63 = tempRet0; + $64 = (_i64Subtract(($5|0),($6|0),($62|0),($63|0))|0); + $65 = tempRet0; + $66 = (_i64Add(($15|0),($16|0),16777216,0)|0); + $67 = tempRet0; + $68 = (_bitshift64Ashr(($66|0),($67|0),25)|0); + $69 = tempRet0; + $70 = (_i64Add(($68|0),($69|0),($20|0),($21|0))|0); + $71 = tempRet0; + $72 = (_bitshift64Shl(($68|0),($69|0),25)|0); + $73 = tempRet0; + $74 = (_i64Subtract(($15|0),($16|0),($72|0),($73|0))|0); + $75 = tempRet0; + $76 = (_i64Add(($23|0),($24|0),16777216,0)|0); + $77 = tempRet0; + $78 = (_bitshift64Ashr(($76|0),($77|0),25)|0); + $79 = tempRet0; + $80 = (_i64Add(($28|0),($29|0),($78|0),($79|0))|0); + $81 = tempRet0; + $82 = (_bitshift64Shl(($78|0),($79|0),25)|0); + $83 = tempRet0; + $84 = (_i64Subtract(($23|0),($24|0),($82|0),($83|0))|0); + $85 = tempRet0; + $86 = (_i64Add(($33|0),($34|0),16777216,0)|0); + $87 = tempRet0; + $88 = (_bitshift64Ashr(($86|0),($87|0),25)|0); + $89 = tempRet0; + $90 = (_i64Add(($88|0),($89|0),($38|0),($39|0))|0); + $91 = tempRet0; + $92 = (_bitshift64Shl(($88|0),($89|0),25)|0); + $93 = tempRet0; + $94 = (_i64Add(($52|0),($53|0),33554432,0)|0); + $95 = tempRet0; + $96 = (_bitshift64Ashr(($94|0),($95|0),26)|0); + $97 = tempRet0; + $98 = (_i64Add(($64|0),($65|0),($96|0),($97|0))|0); + $99 = tempRet0; + $100 = (_bitshift64Shl(($96|0),($97|0),26)|0); + $101 = tempRet0; + $102 = (_i64Subtract(($52|0),($53|0),($100|0),($101|0))|0); + $103 = tempRet0; + $104 = (_i64Add(($60|0),($61|0),33554432,0)|0); + $105 = tempRet0; + $106 = (_bitshift64Ashr(($104|0),($105|0),26)|0); + $107 = tempRet0; + $108 = (_i64Add(($74|0),($75|0),($106|0),($107|0))|0); + $109 = tempRet0; + $110 = (_bitshift64Shl(($106|0),($107|0),26)|0); + $111 = tempRet0; + $112 = (_i64Subtract(($60|0),($61|0),($110|0),($111|0))|0); + $113 = tempRet0; + $114 = (_i64Add(($70|0),($71|0),33554432,0)|0); + $115 = tempRet0; + $116 = (_bitshift64Ashr(($114|0),($115|0),26)|0); + $117 = tempRet0; + $118 = (_i64Add(($84|0),($85|0),($116|0),($117|0))|0); + $119 = tempRet0; + $120 = (_bitshift64Shl(($116|0),($117|0),26)|0); + $121 = tempRet0; + $122 = (_i64Subtract(($70|0),($71|0),($120|0),($121|0))|0); + $123 = tempRet0; + $124 = (_i64Add(($80|0),($81|0),33554432,0)|0); + $125 = tempRet0; + $126 = (_bitshift64Ashr(($124|0),($125|0),26)|0); + $127 = tempRet0; + $128 = (_i64Add(($126|0),($127|0),($33|0),($34|0))|0); + $129 = tempRet0; + $130 = (_i64Subtract(($128|0),($129|0),($92|0),($93|0))|0); + $131 = tempRet0; + $132 = (_bitshift64Shl(($126|0),($127|0),26)|0); + $133 = tempRet0; + $134 = (_i64Subtract(($80|0),($81|0),($132|0),($133|0))|0); + $135 = tempRet0; + $136 = (_i64Add(($90|0),($91|0),33554432,0)|0); + $137 = tempRet0; + $138 = (_bitshift64Ashr(($136|0),($137|0),26)|0); + $139 = tempRet0; + $140 = (_i64Add(($138|0),($139|0),($45|0),0)|0); + $141 = tempRet0; + $142 = (_i64Subtract(($140|0),($141|0),($54|0),($55|0))|0); + $143 = tempRet0; + $144 = (_bitshift64Shl(($138|0),($139|0),26)|0); + $145 = tempRet0; + $146 = (_i64Subtract(($90|0),($91|0),($144|0),($145|0))|0); + $147 = tempRet0; + HEAP32[$h>>2] = $102; + $148 = (($h) + 4|0); + HEAP32[$148>>2] = $98; + $149 = (($h) + 8|0); + HEAP32[$149>>2] = $112; + $150 = (($h) + 12|0); + HEAP32[$150>>2] = $108; + $151 = (($h) + 16|0); + HEAP32[$151>>2] = $122; + $152 = (($h) + 20|0); + HEAP32[$152>>2] = $118; + $153 = (($h) + 24|0); + HEAP32[$153>>2] = $134; + $154 = (($h) + 28|0); + HEAP32[$154>>2] = $130; + $155 = (($h) + 32|0); + HEAP32[$155>>2] = $146; + $156 = (($h) + 36|0); + HEAP32[$156>>2] = $142; + STACKTOP = sp;return; +} +function _load_4($in) { + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0; + var $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$in>>0]|0; + $1 = $0&255; + $2 = (($in) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($in) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + $15 = (($in) + 3|0); + $16 = HEAP8[$15>>0]|0; + $17 = $16&255; + $18 = (_bitshift64Shl(($17|0),0,24)|0); + $19 = tempRet0; + $20 = $13 | $18; + $21 = $14 | $19; + tempRet0 = $21; + STACKTOP = sp;return ($20|0); +} +function _load_3($in) { + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$in>>0]|0; + $1 = $0&255; + $2 = (($in) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($in) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + tempRet0 = $14; + STACKTOP = sp;return ($13|0); +} +function _crypto_sign_ed25519_ref10_fe_invert($out,$z) { + $out = $out|0; + $z = $z|0; + var $0 = 0, $1 = 0, $2 = 0, $exitcond = 0, $exitcond10 = 0, $exitcond11 = 0, $i$74 = 0, $i$83 = 0, $i$92 = 0, $t0 = 0, $t1 = 0, $t2 = 0, $t3 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 160|0; + $t0 = sp + 120|0; + $t1 = sp + 80|0; + $t2 = sp + 40|0; + $t3 = sp; + _crypto_sign_ed25519_ref10_fe_sq($t0,$z); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t1,$z,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t0,$t0,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t0); + _crypto_sign_ed25519_ref10_fe_mul($t1,$t1,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_mul($t1,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_mul($t2,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + _crypto_sign_ed25519_ref10_fe_mul($t2,$t3,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_mul($t1,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t1); + $i$74 = 1; + while(1) { + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + $0 = (($i$74) + 1)|0; + $exitcond11 = ($0|0)==(50); + if ($exitcond11) { + break; + } else { + $i$74 = $0; + } + } + _crypto_sign_ed25519_ref10_fe_mul($t2,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t3,$t2); + $i$83 = 1; + while(1) { + _crypto_sign_ed25519_ref10_fe_sq($t3,$t3); + $1 = (($i$83) + 1)|0; + $exitcond10 = ($1|0)==(100); + if ($exitcond10) { + break; + } else { + $i$83 = $1; + } + } + _crypto_sign_ed25519_ref10_fe_mul($t2,$t3,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + $i$92 = 1; + while(1) { + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + $2 = (($i$92) + 1)|0; + $exitcond = ($2|0)==(50); + if ($exitcond) { + break; + } else { + $i$92 = $2; + } + } + _crypto_sign_ed25519_ref10_fe_mul($t1,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_mul($out,$t1,$t0); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_isnegative($f) { + $f = $f|0; + var $0 = 0, $1 = 0, $2 = 0, $s = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 32|0; + $s = sp; + _crypto_sign_ed25519_ref10_fe_tobytes($s,$f); + $0 = HEAP8[$s>>0]|0; + $1 = $0&255; + $2 = $1 & 1; + STACKTOP = sp;return ($2|0); +} +function _crypto_sign_ed25519_ref10_fe_isnonzero($f) { + $f = $f|0; + var $0 = 0, $s = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 32|0; + $s = sp; + _crypto_sign_ed25519_ref10_fe_tobytes($s,$f); + $0 = (_crypto_verify_32_ref($s,8)|0); + STACKTOP = sp;return ($0|0); +} +function _crypto_sign_ed25519_ref10_fe_mul($h,$f,$g) { + $h = $h|0; + $f = $f|0; + $g = $g|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0; + var $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0; + var $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0; + var $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0; + var $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0; + var $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0; + var $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0; + var $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0; + var $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0; + var $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0; + var $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0; + var $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0; + var $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0; + var $422 = 0, $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0; + var $440 = 0, $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0; + var $459 = 0, $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0; + var $477 = 0, $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0; + var $495 = 0, $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0; + var $512 = 0, $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0; + var $530 = 0, $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0; + var $549 = 0, $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0, $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0; + var $567 = 0, $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0, $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0; + var $585 = 0, $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0, $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0; + var $602 = 0, $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0, $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0; + var $620 = 0, $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0; + var $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0; + var $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = HEAP32[$g>>2]|0; + $20 = (($g) + 4|0); + $21 = HEAP32[$20>>2]|0; + $22 = (($g) + 8|0); + $23 = HEAP32[$22>>2]|0; + $24 = (($g) + 12|0); + $25 = HEAP32[$24>>2]|0; + $26 = (($g) + 16|0); + $27 = HEAP32[$26>>2]|0; + $28 = (($g) + 20|0); + $29 = HEAP32[$28>>2]|0; + $30 = (($g) + 24|0); + $31 = HEAP32[$30>>2]|0; + $32 = (($g) + 28|0); + $33 = HEAP32[$32>>2]|0; + $34 = (($g) + 32|0); + $35 = HEAP32[$34>>2]|0; + $36 = (($g) + 36|0); + $37 = HEAP32[$36>>2]|0; + $38 = ($21*19)|0; + $39 = ($23*19)|0; + $40 = ($25*19)|0; + $41 = ($27*19)|0; + $42 = ($29*19)|0; + $43 = ($31*19)|0; + $44 = ($33*19)|0; + $45 = ($35*19)|0; + $46 = ($37*19)|0; + $47 = $2 << 1; + $48 = $6 << 1; + $49 = $10 << 1; + $50 = $14 << 1; + $51 = $18 << 1; + $52 = ($0|0)<(0); + $53 = $52 << 31 >> 31; + $54 = ($19|0)<(0); + $55 = $54 << 31 >> 31; + $56 = (___muldi3(($19|0),($55|0),($0|0),($53|0))|0); + $57 = tempRet0; + $58 = ($21|0)<(0); + $59 = $58 << 31 >> 31; + $60 = (___muldi3(($21|0),($59|0),($0|0),($53|0))|0); + $61 = tempRet0; + $62 = ($23|0)<(0); + $63 = $62 << 31 >> 31; + $64 = (___muldi3(($23|0),($63|0),($0|0),($53|0))|0); + $65 = tempRet0; + $66 = ($25|0)<(0); + $67 = $66 << 31 >> 31; + $68 = (___muldi3(($25|0),($67|0),($0|0),($53|0))|0); + $69 = tempRet0; + $70 = ($27|0)<(0); + $71 = $70 << 31 >> 31; + $72 = (___muldi3(($27|0),($71|0),($0|0),($53|0))|0); + $73 = tempRet0; + $74 = ($29|0)<(0); + $75 = $74 << 31 >> 31; + $76 = (___muldi3(($29|0),($75|0),($0|0),($53|0))|0); + $77 = tempRet0; + $78 = ($31|0)<(0); + $79 = $78 << 31 >> 31; + $80 = (___muldi3(($31|0),($79|0),($0|0),($53|0))|0); + $81 = tempRet0; + $82 = ($33|0)<(0); + $83 = $82 << 31 >> 31; + $84 = (___muldi3(($33|0),($83|0),($0|0),($53|0))|0); + $85 = tempRet0; + $86 = ($35|0)<(0); + $87 = $86 << 31 >> 31; + $88 = (___muldi3(($35|0),($87|0),($0|0),($53|0))|0); + $89 = tempRet0; + $90 = ($37|0)<(0); + $91 = $90 << 31 >> 31; + $92 = (___muldi3(($37|0),($91|0),($0|0),($53|0))|0); + $93 = tempRet0; + $94 = ($2|0)<(0); + $95 = $94 << 31 >> 31; + $96 = (___muldi3(($19|0),($55|0),($2|0),($95|0))|0); + $97 = tempRet0; + $98 = ($47|0)<(0); + $99 = $98 << 31 >> 31; + $100 = (___muldi3(($21|0),($59|0),($47|0),($99|0))|0); + $101 = tempRet0; + $102 = (___muldi3(($23|0),($63|0),($2|0),($95|0))|0); + $103 = tempRet0; + $104 = (___muldi3(($25|0),($67|0),($47|0),($99|0))|0); + $105 = tempRet0; + $106 = (___muldi3(($27|0),($71|0),($2|0),($95|0))|0); + $107 = tempRet0; + $108 = (___muldi3(($29|0),($75|0),($47|0),($99|0))|0); + $109 = tempRet0; + $110 = (___muldi3(($31|0),($79|0),($2|0),($95|0))|0); + $111 = tempRet0; + $112 = (___muldi3(($33|0),($83|0),($47|0),($99|0))|0); + $113 = tempRet0; + $114 = (___muldi3(($35|0),($87|0),($2|0),($95|0))|0); + $115 = tempRet0; + $116 = ($46|0)<(0); + $117 = $116 << 31 >> 31; + $118 = (___muldi3(($46|0),($117|0),($47|0),($99|0))|0); + $119 = tempRet0; + $120 = ($4|0)<(0); + $121 = $120 << 31 >> 31; + $122 = (___muldi3(($19|0),($55|0),($4|0),($121|0))|0); + $123 = tempRet0; + $124 = (___muldi3(($21|0),($59|0),($4|0),($121|0))|0); + $125 = tempRet0; + $126 = (___muldi3(($23|0),($63|0),($4|0),($121|0))|0); + $127 = tempRet0; + $128 = (___muldi3(($25|0),($67|0),($4|0),($121|0))|0); + $129 = tempRet0; + $130 = (___muldi3(($27|0),($71|0),($4|0),($121|0))|0); + $131 = tempRet0; + $132 = (___muldi3(($29|0),($75|0),($4|0),($121|0))|0); + $133 = tempRet0; + $134 = (___muldi3(($31|0),($79|0),($4|0),($121|0))|0); + $135 = tempRet0; + $136 = (___muldi3(($33|0),($83|0),($4|0),($121|0))|0); + $137 = tempRet0; + $138 = ($45|0)<(0); + $139 = $138 << 31 >> 31; + $140 = (___muldi3(($45|0),($139|0),($4|0),($121|0))|0); + $141 = tempRet0; + $142 = (___muldi3(($46|0),($117|0),($4|0),($121|0))|0); + $143 = tempRet0; + $144 = ($6|0)<(0); + $145 = $144 << 31 >> 31; + $146 = (___muldi3(($19|0),($55|0),($6|0),($145|0))|0); + $147 = tempRet0; + $148 = ($48|0)<(0); + $149 = $148 << 31 >> 31; + $150 = (___muldi3(($21|0),($59|0),($48|0),($149|0))|0); + $151 = tempRet0; + $152 = (___muldi3(($23|0),($63|0),($6|0),($145|0))|0); + $153 = tempRet0; + $154 = (___muldi3(($25|0),($67|0),($48|0),($149|0))|0); + $155 = tempRet0; + $156 = (___muldi3(($27|0),($71|0),($6|0),($145|0))|0); + $157 = tempRet0; + $158 = (___muldi3(($29|0),($75|0),($48|0),($149|0))|0); + $159 = tempRet0; + $160 = (___muldi3(($31|0),($79|0),($6|0),($145|0))|0); + $161 = tempRet0; + $162 = ($44|0)<(0); + $163 = $162 << 31 >> 31; + $164 = (___muldi3(($44|0),($163|0),($48|0),($149|0))|0); + $165 = tempRet0; + $166 = (___muldi3(($45|0),($139|0),($6|0),($145|0))|0); + $167 = tempRet0; + $168 = (___muldi3(($46|0),($117|0),($48|0),($149|0))|0); + $169 = tempRet0; + $170 = ($8|0)<(0); + $171 = $170 << 31 >> 31; + $172 = (___muldi3(($19|0),($55|0),($8|0),($171|0))|0); + $173 = tempRet0; + $174 = (___muldi3(($21|0),($59|0),($8|0),($171|0))|0); + $175 = tempRet0; + $176 = (___muldi3(($23|0),($63|0),($8|0),($171|0))|0); + $177 = tempRet0; + $178 = (___muldi3(($25|0),($67|0),($8|0),($171|0))|0); + $179 = tempRet0; + $180 = (___muldi3(($27|0),($71|0),($8|0),($171|0))|0); + $181 = tempRet0; + $182 = (___muldi3(($29|0),($75|0),($8|0),($171|0))|0); + $183 = tempRet0; + $184 = ($43|0)<(0); + $185 = $184 << 31 >> 31; + $186 = (___muldi3(($43|0),($185|0),($8|0),($171|0))|0); + $187 = tempRet0; + $188 = (___muldi3(($44|0),($163|0),($8|0),($171|0))|0); + $189 = tempRet0; + $190 = (___muldi3(($45|0),($139|0),($8|0),($171|0))|0); + $191 = tempRet0; + $192 = (___muldi3(($46|0),($117|0),($8|0),($171|0))|0); + $193 = tempRet0; + $194 = ($10|0)<(0); + $195 = $194 << 31 >> 31; + $196 = (___muldi3(($19|0),($55|0),($10|0),($195|0))|0); + $197 = tempRet0; + $198 = ($49|0)<(0); + $199 = $198 << 31 >> 31; + $200 = (___muldi3(($21|0),($59|0),($49|0),($199|0))|0); + $201 = tempRet0; + $202 = (___muldi3(($23|0),($63|0),($10|0),($195|0))|0); + $203 = tempRet0; + $204 = (___muldi3(($25|0),($67|0),($49|0),($199|0))|0); + $205 = tempRet0; + $206 = (___muldi3(($27|0),($71|0),($10|0),($195|0))|0); + $207 = tempRet0; + $208 = ($42|0)<(0); + $209 = $208 << 31 >> 31; + $210 = (___muldi3(($42|0),($209|0),($49|0),($199|0))|0); + $211 = tempRet0; + $212 = (___muldi3(($43|0),($185|0),($10|0),($195|0))|0); + $213 = tempRet0; + $214 = (___muldi3(($44|0),($163|0),($49|0),($199|0))|0); + $215 = tempRet0; + $216 = (___muldi3(($45|0),($139|0),($10|0),($195|0))|0); + $217 = tempRet0; + $218 = (___muldi3(($46|0),($117|0),($49|0),($199|0))|0); + $219 = tempRet0; + $220 = ($12|0)<(0); + $221 = $220 << 31 >> 31; + $222 = (___muldi3(($19|0),($55|0),($12|0),($221|0))|0); + $223 = tempRet0; + $224 = (___muldi3(($21|0),($59|0),($12|0),($221|0))|0); + $225 = tempRet0; + $226 = (___muldi3(($23|0),($63|0),($12|0),($221|0))|0); + $227 = tempRet0; + $228 = (___muldi3(($25|0),($67|0),($12|0),($221|0))|0); + $229 = tempRet0; + $230 = ($41|0)<(0); + $231 = $230 << 31 >> 31; + $232 = (___muldi3(($41|0),($231|0),($12|0),($221|0))|0); + $233 = tempRet0; + $234 = (___muldi3(($42|0),($209|0),($12|0),($221|0))|0); + $235 = tempRet0; + $236 = (___muldi3(($43|0),($185|0),($12|0),($221|0))|0); + $237 = tempRet0; + $238 = (___muldi3(($44|0),($163|0),($12|0),($221|0))|0); + $239 = tempRet0; + $240 = (___muldi3(($45|0),($139|0),($12|0),($221|0))|0); + $241 = tempRet0; + $242 = (___muldi3(($46|0),($117|0),($12|0),($221|0))|0); + $243 = tempRet0; + $244 = ($14|0)<(0); + $245 = $244 << 31 >> 31; + $246 = (___muldi3(($19|0),($55|0),($14|0),($245|0))|0); + $247 = tempRet0; + $248 = ($50|0)<(0); + $249 = $248 << 31 >> 31; + $250 = (___muldi3(($21|0),($59|0),($50|0),($249|0))|0); + $251 = tempRet0; + $252 = (___muldi3(($23|0),($63|0),($14|0),($245|0))|0); + $253 = tempRet0; + $254 = ($40|0)<(0); + $255 = $254 << 31 >> 31; + $256 = (___muldi3(($40|0),($255|0),($50|0),($249|0))|0); + $257 = tempRet0; + $258 = (___muldi3(($41|0),($231|0),($14|0),($245|0))|0); + $259 = tempRet0; + $260 = (___muldi3(($42|0),($209|0),($50|0),($249|0))|0); + $261 = tempRet0; + $262 = (___muldi3(($43|0),($185|0),($14|0),($245|0))|0); + $263 = tempRet0; + $264 = (___muldi3(($44|0),($163|0),($50|0),($249|0))|0); + $265 = tempRet0; + $266 = (___muldi3(($45|0),($139|0),($14|0),($245|0))|0); + $267 = tempRet0; + $268 = (___muldi3(($46|0),($117|0),($50|0),($249|0))|0); + $269 = tempRet0; + $270 = ($16|0)<(0); + $271 = $270 << 31 >> 31; + $272 = (___muldi3(($19|0),($55|0),($16|0),($271|0))|0); + $273 = tempRet0; + $274 = (___muldi3(($21|0),($59|0),($16|0),($271|0))|0); + $275 = tempRet0; + $276 = ($39|0)<(0); + $277 = $276 << 31 >> 31; + $278 = (___muldi3(($39|0),($277|0),($16|0),($271|0))|0); + $279 = tempRet0; + $280 = (___muldi3(($40|0),($255|0),($16|0),($271|0))|0); + $281 = tempRet0; + $282 = (___muldi3(($41|0),($231|0),($16|0),($271|0))|0); + $283 = tempRet0; + $284 = (___muldi3(($42|0),($209|0),($16|0),($271|0))|0); + $285 = tempRet0; + $286 = (___muldi3(($43|0),($185|0),($16|0),($271|0))|0); + $287 = tempRet0; + $288 = (___muldi3(($44|0),($163|0),($16|0),($271|0))|0); + $289 = tempRet0; + $290 = (___muldi3(($45|0),($139|0),($16|0),($271|0))|0); + $291 = tempRet0; + $292 = (___muldi3(($46|0),($117|0),($16|0),($271|0))|0); + $293 = tempRet0; + $294 = ($18|0)<(0); + $295 = $294 << 31 >> 31; + $296 = (___muldi3(($19|0),($55|0),($18|0),($295|0))|0); + $297 = tempRet0; + $298 = ($51|0)<(0); + $299 = $298 << 31 >> 31; + $300 = ($38|0)<(0); + $301 = $300 << 31 >> 31; + $302 = (___muldi3(($38|0),($301|0),($51|0),($299|0))|0); + $303 = tempRet0; + $304 = (___muldi3(($39|0),($277|0),($18|0),($295|0))|0); + $305 = tempRet0; + $306 = (___muldi3(($40|0),($255|0),($51|0),($299|0))|0); + $307 = tempRet0; + $308 = (___muldi3(($41|0),($231|0),($18|0),($295|0))|0); + $309 = tempRet0; + $310 = (___muldi3(($42|0),($209|0),($51|0),($299|0))|0); + $311 = tempRet0; + $312 = (___muldi3(($43|0),($185|0),($18|0),($295|0))|0); + $313 = tempRet0; + $314 = (___muldi3(($44|0),($163|0),($51|0),($299|0))|0); + $315 = tempRet0; + $316 = (___muldi3(($45|0),($139|0),($18|0),($295|0))|0); + $317 = tempRet0; + $318 = (___muldi3(($46|0),($117|0),($51|0),($299|0))|0); + $319 = tempRet0; + $320 = (_i64Add(($302|0),($303|0),($56|0),($57|0))|0); + $321 = tempRet0; + $322 = (_i64Add(($320|0),($321|0),($278|0),($279|0))|0); + $323 = tempRet0; + $324 = (_i64Add(($322|0),($323|0),($256|0),($257|0))|0); + $325 = tempRet0; + $326 = (_i64Add(($324|0),($325|0),($232|0),($233|0))|0); + $327 = tempRet0; + $328 = (_i64Add(($326|0),($327|0),($210|0),($211|0))|0); + $329 = tempRet0; + $330 = (_i64Add(($328|0),($329|0),($186|0),($187|0))|0); + $331 = tempRet0; + $332 = (_i64Add(($330|0),($331|0),($164|0),($165|0))|0); + $333 = tempRet0; + $334 = (_i64Add(($332|0),($333|0),($140|0),($141|0))|0); + $335 = tempRet0; + $336 = (_i64Add(($334|0),($335|0),($118|0),($119|0))|0); + $337 = tempRet0; + $338 = (_i64Add(($60|0),($61|0),($96|0),($97|0))|0); + $339 = tempRet0; + $340 = (_i64Add(($150|0),($151|0),($172|0),($173|0))|0); + $341 = tempRet0; + $342 = (_i64Add(($340|0),($341|0),($126|0),($127|0))|0); + $343 = tempRet0; + $344 = (_i64Add(($342|0),($343|0),($104|0),($105|0))|0); + $345 = tempRet0; + $346 = (_i64Add(($344|0),($345|0),($72|0),($73|0))|0); + $347 = tempRet0; + $348 = (_i64Add(($346|0),($347|0),($310|0),($311|0))|0); + $349 = tempRet0; + $350 = (_i64Add(($348|0),($349|0),($286|0),($287|0))|0); + $351 = tempRet0; + $352 = (_i64Add(($350|0),($351|0),($264|0),($265|0))|0); + $353 = tempRet0; + $354 = (_i64Add(($352|0),($353|0),($240|0),($241|0))|0); + $355 = tempRet0; + $356 = (_i64Add(($354|0),($355|0),($218|0),($219|0))|0); + $357 = tempRet0; + $358 = (_i64Add(($336|0),($337|0),33554432,0)|0); + $359 = tempRet0; + $360 = (_bitshift64Ashr(($358|0),($359|0),26)|0); + $361 = tempRet0; + $362 = (_i64Add(($338|0),($339|0),($304|0),($305|0))|0); + $363 = tempRet0; + $364 = (_i64Add(($362|0),($363|0),($280|0),($281|0))|0); + $365 = tempRet0; + $366 = (_i64Add(($364|0),($365|0),($258|0),($259|0))|0); + $367 = tempRet0; + $368 = (_i64Add(($366|0),($367|0),($234|0),($235|0))|0); + $369 = tempRet0; + $370 = (_i64Add(($368|0),($369|0),($212|0),($213|0))|0); + $371 = tempRet0; + $372 = (_i64Add(($370|0),($371|0),($188|0),($189|0))|0); + $373 = tempRet0; + $374 = (_i64Add(($372|0),($373|0),($166|0),($167|0))|0); + $375 = tempRet0; + $376 = (_i64Add(($374|0),($375|0),($142|0),($143|0))|0); + $377 = tempRet0; + $378 = (_i64Add(($376|0),($377|0),($360|0),($361|0))|0); + $379 = tempRet0; + $380 = (_bitshift64Shl(($360|0),($361|0),26)|0); + $381 = tempRet0; + $382 = (_i64Subtract(($336|0),($337|0),($380|0),($381|0))|0); + $383 = tempRet0; + $384 = (_i64Add(($356|0),($357|0),33554432,0)|0); + $385 = tempRet0; + $386 = (_bitshift64Ashr(($384|0),($385|0),26)|0); + $387 = tempRet0; + $388 = (_i64Add(($174|0),($175|0),($196|0),($197|0))|0); + $389 = tempRet0; + $390 = (_i64Add(($388|0),($389|0),($152|0),($153|0))|0); + $391 = tempRet0; + $392 = (_i64Add(($390|0),($391|0),($128|0),($129|0))|0); + $393 = tempRet0; + $394 = (_i64Add(($392|0),($393|0),($106|0),($107|0))|0); + $395 = tempRet0; + $396 = (_i64Add(($394|0),($395|0),($76|0),($77|0))|0); + $397 = tempRet0; + $398 = (_i64Add(($396|0),($397|0),($312|0),($313|0))|0); + $399 = tempRet0; + $400 = (_i64Add(($398|0),($399|0),($288|0),($289|0))|0); + $401 = tempRet0; + $402 = (_i64Add(($400|0),($401|0),($266|0),($267|0))|0); + $403 = tempRet0; + $404 = (_i64Add(($402|0),($403|0),($242|0),($243|0))|0); + $405 = tempRet0; + $406 = (_i64Add(($404|0),($405|0),($386|0),($387|0))|0); + $407 = tempRet0; + $408 = (_bitshift64Shl(($386|0),($387|0),26)|0); + $409 = tempRet0; + $410 = (_i64Subtract(($356|0),($357|0),($408|0),($409|0))|0); + $411 = tempRet0; + $412 = (_i64Add(($378|0),($379|0),16777216,0)|0); + $413 = tempRet0; + $414 = (_bitshift64Ashr(($412|0),($413|0),25)|0); + $415 = tempRet0; + $416 = (_i64Add(($100|0),($101|0),($122|0),($123|0))|0); + $417 = tempRet0; + $418 = (_i64Add(($416|0),($417|0),($64|0),($65|0))|0); + $419 = tempRet0; + $420 = (_i64Add(($418|0),($419|0),($306|0),($307|0))|0); + $421 = tempRet0; + $422 = (_i64Add(($420|0),($421|0),($282|0),($283|0))|0); + $423 = tempRet0; + $424 = (_i64Add(($422|0),($423|0),($260|0),($261|0))|0); + $425 = tempRet0; + $426 = (_i64Add(($424|0),($425|0),($236|0),($237|0))|0); + $427 = tempRet0; + $428 = (_i64Add(($426|0),($427|0),($214|0),($215|0))|0); + $429 = tempRet0; + $430 = (_i64Add(($428|0),($429|0),($190|0),($191|0))|0); + $431 = tempRet0; + $432 = (_i64Add(($430|0),($431|0),($168|0),($169|0))|0); + $433 = tempRet0; + $434 = (_i64Add(($432|0),($433|0),($414|0),($415|0))|0); + $435 = tempRet0; + $436 = (_bitshift64Shl(($414|0),($415|0),25)|0); + $437 = tempRet0; + $438 = (_i64Subtract(($378|0),($379|0),($436|0),($437|0))|0); + $439 = tempRet0; + $440 = (_i64Add(($406|0),($407|0),16777216,0)|0); + $441 = tempRet0; + $442 = (_bitshift64Ashr(($440|0),($441|0),25)|0); + $443 = tempRet0; + $444 = (_i64Add(($200|0),($201|0),($222|0),($223|0))|0); + $445 = tempRet0; + $446 = (_i64Add(($444|0),($445|0),($176|0),($177|0))|0); + $447 = tempRet0; + $448 = (_i64Add(($446|0),($447|0),($154|0),($155|0))|0); + $449 = tempRet0; + $450 = (_i64Add(($448|0),($449|0),($130|0),($131|0))|0); + $451 = tempRet0; + $452 = (_i64Add(($450|0),($451|0),($108|0),($109|0))|0); + $453 = tempRet0; + $454 = (_i64Add(($452|0),($453|0),($80|0),($81|0))|0); + $455 = tempRet0; + $456 = (_i64Add(($454|0),($455|0),($314|0),($315|0))|0); + $457 = tempRet0; + $458 = (_i64Add(($456|0),($457|0),($290|0),($291|0))|0); + $459 = tempRet0; + $460 = (_i64Add(($458|0),($459|0),($268|0),($269|0))|0); + $461 = tempRet0; + $462 = (_i64Add(($460|0),($461|0),($442|0),($443|0))|0); + $463 = tempRet0; + $464 = (_bitshift64Shl(($442|0),($443|0),25)|0); + $465 = tempRet0; + $466 = (_i64Subtract(($406|0),($407|0),($464|0),($465|0))|0); + $467 = tempRet0; + $468 = (_i64Add(($434|0),($435|0),33554432,0)|0); + $469 = tempRet0; + $470 = (_bitshift64Ashr(($468|0),($469|0),26)|0); + $471 = tempRet0; + $472 = (_i64Add(($124|0),($125|0),($146|0),($147|0))|0); + $473 = tempRet0; + $474 = (_i64Add(($472|0),($473|0),($102|0),($103|0))|0); + $475 = tempRet0; + $476 = (_i64Add(($474|0),($475|0),($68|0),($69|0))|0); + $477 = tempRet0; + $478 = (_i64Add(($476|0),($477|0),($308|0),($309|0))|0); + $479 = tempRet0; + $480 = (_i64Add(($478|0),($479|0),($284|0),($285|0))|0); + $481 = tempRet0; + $482 = (_i64Add(($480|0),($481|0),($262|0),($263|0))|0); + $483 = tempRet0; + $484 = (_i64Add(($482|0),($483|0),($238|0),($239|0))|0); + $485 = tempRet0; + $486 = (_i64Add(($484|0),($485|0),($216|0),($217|0))|0); + $487 = tempRet0; + $488 = (_i64Add(($486|0),($487|0),($192|0),($193|0))|0); + $489 = tempRet0; + $490 = (_i64Add(($488|0),($489|0),($470|0),($471|0))|0); + $491 = tempRet0; + $492 = (_bitshift64Shl(($470|0),($471|0),26)|0); + $493 = tempRet0; + $494 = (_i64Subtract(($434|0),($435|0),($492|0),($493|0))|0); + $495 = tempRet0; + $496 = (_i64Add(($462|0),($463|0),33554432,0)|0); + $497 = tempRet0; + $498 = (_bitshift64Ashr(($496|0),($497|0),26)|0); + $499 = tempRet0; + $500 = (_i64Add(($224|0),($225|0),($246|0),($247|0))|0); + $501 = tempRet0; + $502 = (_i64Add(($500|0),($501|0),($202|0),($203|0))|0); + $503 = tempRet0; + $504 = (_i64Add(($502|0),($503|0),($178|0),($179|0))|0); + $505 = tempRet0; + $506 = (_i64Add(($504|0),($505|0),($156|0),($157|0))|0); + $507 = tempRet0; + $508 = (_i64Add(($506|0),($507|0),($132|0),($133|0))|0); + $509 = tempRet0; + $510 = (_i64Add(($508|0),($509|0),($110|0),($111|0))|0); + $511 = tempRet0; + $512 = (_i64Add(($510|0),($511|0),($84|0),($85|0))|0); + $513 = tempRet0; + $514 = (_i64Add(($512|0),($513|0),($316|0),($317|0))|0); + $515 = tempRet0; + $516 = (_i64Add(($514|0),($515|0),($292|0),($293|0))|0); + $517 = tempRet0; + $518 = (_i64Add(($516|0),($517|0),($498|0),($499|0))|0); + $519 = tempRet0; + $520 = (_bitshift64Shl(($498|0),($499|0),26)|0); + $521 = tempRet0; + $522 = (_i64Subtract(($462|0),($463|0),($520|0),($521|0))|0); + $523 = tempRet0; + $524 = (_i64Add(($490|0),($491|0),16777216,0)|0); + $525 = tempRet0; + $526 = (_bitshift64Ashr(($524|0),($525|0),25)|0); + $527 = tempRet0; + $528 = (_i64Add(($526|0),($527|0),($410|0),($411|0))|0); + $529 = tempRet0; + $530 = (_bitshift64Shl(($526|0),($527|0),25)|0); + $531 = tempRet0; + $532 = (_i64Subtract(($490|0),($491|0),($530|0),($531|0))|0); + $533 = tempRet0; + $534 = (_i64Add(($518|0),($519|0),16777216,0)|0); + $535 = tempRet0; + $536 = (_bitshift64Ashr(($534|0),($535|0),25)|0); + $537 = tempRet0; + $538 = (_i64Add(($250|0),($251|0),($272|0),($273|0))|0); + $539 = tempRet0; + $540 = (_i64Add(($538|0),($539|0),($226|0),($227|0))|0); + $541 = tempRet0; + $542 = (_i64Add(($540|0),($541|0),($204|0),($205|0))|0); + $543 = tempRet0; + $544 = (_i64Add(($542|0),($543|0),($180|0),($181|0))|0); + $545 = tempRet0; + $546 = (_i64Add(($544|0),($545|0),($158|0),($159|0))|0); + $547 = tempRet0; + $548 = (_i64Add(($546|0),($547|0),($134|0),($135|0))|0); + $549 = tempRet0; + $550 = (_i64Add(($548|0),($549|0),($112|0),($113|0))|0); + $551 = tempRet0; + $552 = (_i64Add(($550|0),($551|0),($88|0),($89|0))|0); + $553 = tempRet0; + $554 = (_i64Add(($552|0),($553|0),($318|0),($319|0))|0); + $555 = tempRet0; + $556 = (_i64Add(($554|0),($555|0),($536|0),($537|0))|0); + $557 = tempRet0; + $558 = (_bitshift64Shl(($536|0),($537|0),25)|0); + $559 = tempRet0; + $560 = (_i64Subtract(($518|0),($519|0),($558|0),($559|0))|0); + $561 = tempRet0; + $562 = (_i64Add(($528|0),($529|0),33554432,0)|0); + $563 = tempRet0; + $564 = (_bitshift64Ashr(($562|0),($563|0),26)|0); + $565 = tempRet0; + $566 = (_i64Add(($466|0),($467|0),($564|0),($565|0))|0); + $567 = tempRet0; + $568 = (_bitshift64Shl(($564|0),($565|0),26)|0); + $569 = tempRet0; + $570 = (_i64Subtract(($528|0),($529|0),($568|0),($569|0))|0); + $571 = tempRet0; + $572 = (_i64Add(($556|0),($557|0),33554432,0)|0); + $573 = tempRet0; + $574 = (_bitshift64Ashr(($572|0),($573|0),26)|0); + $575 = tempRet0; + $576 = (_i64Add(($274|0),($275|0),($296|0),($297|0))|0); + $577 = tempRet0; + $578 = (_i64Add(($576|0),($577|0),($252|0),($253|0))|0); + $579 = tempRet0; + $580 = (_i64Add(($578|0),($579|0),($228|0),($229|0))|0); + $581 = tempRet0; + $582 = (_i64Add(($580|0),($581|0),($206|0),($207|0))|0); + $583 = tempRet0; + $584 = (_i64Add(($582|0),($583|0),($182|0),($183|0))|0); + $585 = tempRet0; + $586 = (_i64Add(($584|0),($585|0),($160|0),($161|0))|0); + $587 = tempRet0; + $588 = (_i64Add(($586|0),($587|0),($136|0),($137|0))|0); + $589 = tempRet0; + $590 = (_i64Add(($588|0),($589|0),($114|0),($115|0))|0); + $591 = tempRet0; + $592 = (_i64Add(($590|0),($591|0),($92|0),($93|0))|0); + $593 = tempRet0; + $594 = (_i64Add(($592|0),($593|0),($574|0),($575|0))|0); + $595 = tempRet0; + $596 = (_bitshift64Shl(($574|0),($575|0),26)|0); + $597 = tempRet0; + $598 = (_i64Subtract(($556|0),($557|0),($596|0),($597|0))|0); + $599 = tempRet0; + $600 = (_i64Add(($594|0),($595|0),16777216,0)|0); + $601 = tempRet0; + $602 = (_bitshift64Ashr(($600|0),($601|0),25)|0); + $603 = tempRet0; + $604 = (___muldi3(($602|0),($603|0),19,0)|0); + $605 = tempRet0; + $606 = (_i64Add(($604|0),($605|0),($382|0),($383|0))|0); + $607 = tempRet0; + $608 = (_bitshift64Shl(($602|0),($603|0),25)|0); + $609 = tempRet0; + $610 = (_i64Subtract(($594|0),($595|0),($608|0),($609|0))|0); + $611 = tempRet0; + $612 = (_i64Add(($606|0),($607|0),33554432,0)|0); + $613 = tempRet0; + $614 = (_bitshift64Ashr(($612|0),($613|0),26)|0); + $615 = tempRet0; + $616 = (_i64Add(($438|0),($439|0),($614|0),($615|0))|0); + $617 = tempRet0; + $618 = (_bitshift64Shl(($614|0),($615|0),26)|0); + $619 = tempRet0; + $620 = (_i64Subtract(($606|0),($607|0),($618|0),($619|0))|0); + $621 = tempRet0; + HEAP32[$h>>2] = $620; + $622 = (($h) + 4|0); + HEAP32[$622>>2] = $616; + $623 = (($h) + 8|0); + HEAP32[$623>>2] = $494; + $624 = (($h) + 12|0); + HEAP32[$624>>2] = $532; + $625 = (($h) + 16|0); + HEAP32[$625>>2] = $570; + $626 = (($h) + 20|0); + HEAP32[$626>>2] = $566; + $627 = (($h) + 24|0); + HEAP32[$627>>2] = $522; + $628 = (($h) + 28|0); + HEAP32[$628>>2] = $560; + $629 = (($h) + 32|0); + HEAP32[$629>>2] = $598; + $630 = (($h) + 36|0); + HEAP32[$630>>2] = $610; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_neg($h,$f) { + $h = $h|0; + $f = $f|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = (0 - ($0))|0; + $20 = (0 - ($2))|0; + $21 = (0 - ($4))|0; + $22 = (0 - ($6))|0; + $23 = (0 - ($8))|0; + $24 = (0 - ($10))|0; + $25 = (0 - ($12))|0; + $26 = (0 - ($14))|0; + $27 = (0 - ($16))|0; + $28 = (0 - ($18))|0; + HEAP32[$h>>2] = $19; + $29 = (($h) + 4|0); + HEAP32[$29>>2] = $20; + $30 = (($h) + 8|0); + HEAP32[$30>>2] = $21; + $31 = (($h) + 12|0); + HEAP32[$31>>2] = $22; + $32 = (($h) + 16|0); + HEAP32[$32>>2] = $23; + $33 = (($h) + 20|0); + HEAP32[$33>>2] = $24; + $34 = (($h) + 24|0); + HEAP32[$34>>2] = $25; + $35 = (($h) + 28|0); + HEAP32[$35>>2] = $26; + $36 = (($h) + 32|0); + HEAP32[$36>>2] = $27; + $37 = (($h) + 36|0); + HEAP32[$37>>2] = $28; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_pow22523($out,$z) { + $out = $out|0; + $z = $z|0; + var $0 = 0, $1 = 0, $2 = 0, $exitcond = 0, $exitcond10 = 0, $exitcond11 = 0, $i$74 = 0, $i$83 = 0, $i$92 = 0, $t0 = 0, $t1 = 0, $t2 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 128|0; + $t0 = sp + 80|0; + $t1 = sp + 40|0; + $t2 = sp; + _crypto_sign_ed25519_ref10_fe_sq($t0,$z); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t1,$z,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t0,$t0,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t0,$t0); + _crypto_sign_ed25519_ref10_fe_mul($t0,$t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t0,$t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t1,$t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + _crypto_sign_ed25519_ref10_fe_mul($t1,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + _crypto_sign_ed25519_ref10_fe_mul($t0,$t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t0); + $i$74 = 1; + while(1) { + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + $0 = (($i$74) + 1)|0; + $exitcond11 = ($0|0)==(50); + if ($exitcond11) { + break; + } else { + $i$74 = $0; + } + } + _crypto_sign_ed25519_ref10_fe_mul($t1,$t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t2,$t1); + $i$83 = 1; + while(1) { + _crypto_sign_ed25519_ref10_fe_sq($t2,$t2); + $1 = (($i$83) + 1)|0; + $exitcond10 = ($1|0)==(100); + if ($exitcond10) { + break; + } else { + $i$83 = $1; + } + } + _crypto_sign_ed25519_ref10_fe_mul($t1,$t2,$t1); + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + $i$92 = 1; + while(1) { + _crypto_sign_ed25519_ref10_fe_sq($t1,$t1); + $2 = (($i$92) + 1)|0; + $exitcond = ($2|0)==(50); + if ($exitcond) { + break; + } else { + $i$92 = $2; + } + } + _crypto_sign_ed25519_ref10_fe_mul($t0,$t1,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t0,$t0); + _crypto_sign_ed25519_ref10_fe_sq($t0,$t0); + _crypto_sign_ed25519_ref10_fe_mul($out,$t0,$z); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_sq($h,$f) { + $h = $h|0; + $f = $f|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0; + var $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0; + var $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0; + var $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0; + var $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0; + var $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0; + var $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0; + var $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0; + var $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0; + var $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0; + var $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0; + var $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0; + var $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0; + var $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0; + var $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0; + var $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = $0 << 1; + $20 = $2 << 1; + $21 = $4 << 1; + $22 = $6 << 1; + $23 = $8 << 1; + $24 = $10 << 1; + $25 = $12 << 1; + $26 = $14 << 1; + $27 = ($10*38)|0; + $28 = ($12*19)|0; + $29 = ($14*38)|0; + $30 = ($16*19)|0; + $31 = ($18*38)|0; + $32 = ($0|0)<(0); + $33 = $32 << 31 >> 31; + $34 = (___muldi3(($0|0),($33|0),($0|0),($33|0))|0); + $35 = tempRet0; + $36 = ($19|0)<(0); + $37 = $36 << 31 >> 31; + $38 = ($2|0)<(0); + $39 = $38 << 31 >> 31; + $40 = (___muldi3(($19|0),($37|0),($2|0),($39|0))|0); + $41 = tempRet0; + $42 = ($4|0)<(0); + $43 = $42 << 31 >> 31; + $44 = (___muldi3(($4|0),($43|0),($19|0),($37|0))|0); + $45 = tempRet0; + $46 = ($6|0)<(0); + $47 = $46 << 31 >> 31; + $48 = (___muldi3(($6|0),($47|0),($19|0),($37|0))|0); + $49 = tempRet0; + $50 = ($8|0)<(0); + $51 = $50 << 31 >> 31; + $52 = (___muldi3(($8|0),($51|0),($19|0),($37|0))|0); + $53 = tempRet0; + $54 = ($10|0)<(0); + $55 = $54 << 31 >> 31; + $56 = (___muldi3(($10|0),($55|0),($19|0),($37|0))|0); + $57 = tempRet0; + $58 = ($12|0)<(0); + $59 = $58 << 31 >> 31; + $60 = (___muldi3(($12|0),($59|0),($19|0),($37|0))|0); + $61 = tempRet0; + $62 = ($14|0)<(0); + $63 = $62 << 31 >> 31; + $64 = (___muldi3(($14|0),($63|0),($19|0),($37|0))|0); + $65 = tempRet0; + $66 = ($16|0)<(0); + $67 = $66 << 31 >> 31; + $68 = (___muldi3(($16|0),($67|0),($19|0),($37|0))|0); + $69 = tempRet0; + $70 = ($18|0)<(0); + $71 = $70 << 31 >> 31; + $72 = (___muldi3(($18|0),($71|0),($19|0),($37|0))|0); + $73 = tempRet0; + $74 = ($20|0)<(0); + $75 = $74 << 31 >> 31; + $76 = (___muldi3(($20|0),($75|0),($2|0),($39|0))|0); + $77 = tempRet0; + $78 = (___muldi3(($20|0),($75|0),($4|0),($43|0))|0); + $79 = tempRet0; + $80 = ($22|0)<(0); + $81 = $80 << 31 >> 31; + $82 = (___muldi3(($22|0),($81|0),($20|0),($75|0))|0); + $83 = tempRet0; + $84 = (___muldi3(($8|0),($51|0),($20|0),($75|0))|0); + $85 = tempRet0; + $86 = ($24|0)<(0); + $87 = $86 << 31 >> 31; + $88 = (___muldi3(($24|0),($87|0),($20|0),($75|0))|0); + $89 = tempRet0; + $90 = (___muldi3(($12|0),($59|0),($20|0),($75|0))|0); + $91 = tempRet0; + $92 = ($26|0)<(0); + $93 = $92 << 31 >> 31; + $94 = (___muldi3(($26|0),($93|0),($20|0),($75|0))|0); + $95 = tempRet0; + $96 = (___muldi3(($16|0),($67|0),($20|0),($75|0))|0); + $97 = tempRet0; + $98 = ($31|0)<(0); + $99 = $98 << 31 >> 31; + $100 = (___muldi3(($31|0),($99|0),($20|0),($75|0))|0); + $101 = tempRet0; + $102 = (___muldi3(($4|0),($43|0),($4|0),($43|0))|0); + $103 = tempRet0; + $104 = ($21|0)<(0); + $105 = $104 << 31 >> 31; + $106 = (___muldi3(($21|0),($105|0),($6|0),($47|0))|0); + $107 = tempRet0; + $108 = (___muldi3(($8|0),($51|0),($21|0),($105|0))|0); + $109 = tempRet0; + $110 = (___muldi3(($10|0),($55|0),($21|0),($105|0))|0); + $111 = tempRet0; + $112 = (___muldi3(($12|0),($59|0),($21|0),($105|0))|0); + $113 = tempRet0; + $114 = (___muldi3(($14|0),($63|0),($21|0),($105|0))|0); + $115 = tempRet0; + $116 = ($30|0)<(0); + $117 = $116 << 31 >> 31; + $118 = (___muldi3(($30|0),($117|0),($21|0),($105|0))|0); + $119 = tempRet0; + $120 = (___muldi3(($31|0),($99|0),($4|0),($43|0))|0); + $121 = tempRet0; + $122 = (___muldi3(($22|0),($81|0),($6|0),($47|0))|0); + $123 = tempRet0; + $124 = (___muldi3(($22|0),($81|0),($8|0),($51|0))|0); + $125 = tempRet0; + $126 = (___muldi3(($24|0),($87|0),($22|0),($81|0))|0); + $127 = tempRet0; + $128 = (___muldi3(($12|0),($59|0),($22|0),($81|0))|0); + $129 = tempRet0; + $130 = ($29|0)<(0); + $131 = $130 << 31 >> 31; + $132 = (___muldi3(($29|0),($131|0),($22|0),($81|0))|0); + $133 = tempRet0; + $134 = (___muldi3(($30|0),($117|0),($22|0),($81|0))|0); + $135 = tempRet0; + $136 = (___muldi3(($31|0),($99|0),($22|0),($81|0))|0); + $137 = tempRet0; + $138 = (___muldi3(($8|0),($51|0),($8|0),($51|0))|0); + $139 = tempRet0; + $140 = ($23|0)<(0); + $141 = $140 << 31 >> 31; + $142 = (___muldi3(($23|0),($141|0),($10|0),($55|0))|0); + $143 = tempRet0; + $144 = ($28|0)<(0); + $145 = $144 << 31 >> 31; + $146 = (___muldi3(($28|0),($145|0),($23|0),($141|0))|0); + $147 = tempRet0; + $148 = (___muldi3(($29|0),($131|0),($8|0),($51|0))|0); + $149 = tempRet0; + $150 = (___muldi3(($30|0),($117|0),($23|0),($141|0))|0); + $151 = tempRet0; + $152 = (___muldi3(($31|0),($99|0),($8|0),($51|0))|0); + $153 = tempRet0; + $154 = ($27|0)<(0); + $155 = $154 << 31 >> 31; + $156 = (___muldi3(($27|0),($155|0),($10|0),($55|0))|0); + $157 = tempRet0; + $158 = (___muldi3(($28|0),($145|0),($24|0),($87|0))|0); + $159 = tempRet0; + $160 = (___muldi3(($29|0),($131|0),($24|0),($87|0))|0); + $161 = tempRet0; + $162 = (___muldi3(($30|0),($117|0),($24|0),($87|0))|0); + $163 = tempRet0; + $164 = (___muldi3(($31|0),($99|0),($24|0),($87|0))|0); + $165 = tempRet0; + $166 = (___muldi3(($28|0),($145|0),($12|0),($59|0))|0); + $167 = tempRet0; + $168 = (___muldi3(($29|0),($131|0),($12|0),($59|0))|0); + $169 = tempRet0; + $170 = ($25|0)<(0); + $171 = $170 << 31 >> 31; + $172 = (___muldi3(($30|0),($117|0),($25|0),($171|0))|0); + $173 = tempRet0; + $174 = (___muldi3(($31|0),($99|0),($12|0),($59|0))|0); + $175 = tempRet0; + $176 = (___muldi3(($29|0),($131|0),($14|0),($63|0))|0); + $177 = tempRet0; + $178 = (___muldi3(($30|0),($117|0),($26|0),($93|0))|0); + $179 = tempRet0; + $180 = (___muldi3(($31|0),($99|0),($26|0),($93|0))|0); + $181 = tempRet0; + $182 = (___muldi3(($30|0),($117|0),($16|0),($67|0))|0); + $183 = tempRet0; + $184 = (___muldi3(($31|0),($99|0),($16|0),($67|0))|0); + $185 = tempRet0; + $186 = (___muldi3(($31|0),($99|0),($18|0),($71|0))|0); + $187 = tempRet0; + $188 = (_i64Add(($156|0),($157|0),($34|0),($35|0))|0); + $189 = tempRet0; + $190 = (_i64Add(($188|0),($189|0),($146|0),($147|0))|0); + $191 = tempRet0; + $192 = (_i64Add(($190|0),($191|0),($132|0),($133|0))|0); + $193 = tempRet0; + $194 = (_i64Add(($192|0),($193|0),($118|0),($119|0))|0); + $195 = tempRet0; + $196 = (_i64Add(($194|0),($195|0),($100|0),($101|0))|0); + $197 = tempRet0; + $198 = (_i64Add(($44|0),($45|0),($76|0),($77|0))|0); + $199 = tempRet0; + $200 = (_i64Add(($48|0),($49|0),($78|0),($79|0))|0); + $201 = tempRet0; + $202 = (_i64Add(($82|0),($83|0),($102|0),($103|0))|0); + $203 = tempRet0; + $204 = (_i64Add(($202|0),($203|0),($52|0),($53|0))|0); + $205 = tempRet0; + $206 = (_i64Add(($204|0),($205|0),($176|0),($177|0))|0); + $207 = tempRet0; + $208 = (_i64Add(($206|0),($207|0),($172|0),($173|0))|0); + $209 = tempRet0; + $210 = (_i64Add(($208|0),($209|0),($164|0),($165|0))|0); + $211 = tempRet0; + $212 = (_i64Add(($196|0),($197|0),33554432,0)|0); + $213 = tempRet0; + $214 = (_bitshift64Ashr(($212|0),($213|0),26)|0); + $215 = tempRet0; + $216 = (_i64Add(($158|0),($159|0),($40|0),($41|0))|0); + $217 = tempRet0; + $218 = (_i64Add(($216|0),($217|0),($148|0),($149|0))|0); + $219 = tempRet0; + $220 = (_i64Add(($218|0),($219|0),($134|0),($135|0))|0); + $221 = tempRet0; + $222 = (_i64Add(($220|0),($221|0),($120|0),($121|0))|0); + $223 = tempRet0; + $224 = (_i64Add(($222|0),($223|0),($214|0),($215|0))|0); + $225 = tempRet0; + $226 = (_bitshift64Shl(($214|0),($215|0),26)|0); + $227 = tempRet0; + $228 = (_i64Subtract(($196|0),($197|0),($226|0),($227|0))|0); + $229 = tempRet0; + $230 = (_i64Add(($210|0),($211|0),33554432,0)|0); + $231 = tempRet0; + $232 = (_bitshift64Ashr(($230|0),($231|0),26)|0); + $233 = tempRet0; + $234 = (_i64Add(($84|0),($85|0),($106|0),($107|0))|0); + $235 = tempRet0; + $236 = (_i64Add(($234|0),($235|0),($56|0),($57|0))|0); + $237 = tempRet0; + $238 = (_i64Add(($236|0),($237|0),($178|0),($179|0))|0); + $239 = tempRet0; + $240 = (_i64Add(($238|0),($239|0),($174|0),($175|0))|0); + $241 = tempRet0; + $242 = (_i64Add(($240|0),($241|0),($232|0),($233|0))|0); + $243 = tempRet0; + $244 = (_bitshift64Shl(($232|0),($233|0),26)|0); + $245 = tempRet0; + $246 = (_i64Subtract(($210|0),($211|0),($244|0),($245|0))|0); + $247 = tempRet0; + $248 = (_i64Add(($224|0),($225|0),16777216,0)|0); + $249 = tempRet0; + $250 = (_bitshift64Ashr(($248|0),($249|0),25)|0); + $251 = tempRet0; + $252 = (_i64Add(($198|0),($199|0),($166|0),($167|0))|0); + $253 = tempRet0; + $254 = (_i64Add(($252|0),($253|0),($160|0),($161|0))|0); + $255 = tempRet0; + $256 = (_i64Add(($254|0),($255|0),($150|0),($151|0))|0); + $257 = tempRet0; + $258 = (_i64Add(($256|0),($257|0),($136|0),($137|0))|0); + $259 = tempRet0; + $260 = (_i64Add(($258|0),($259|0),($250|0),($251|0))|0); + $261 = tempRet0; + $262 = (_bitshift64Shl(($250|0),($251|0),25)|0); + $263 = tempRet0; + $264 = (_i64Subtract(($224|0),($225|0),($262|0),($263|0))|0); + $265 = tempRet0; + $266 = (_i64Add(($242|0),($243|0),16777216,0)|0); + $267 = tempRet0; + $268 = (_bitshift64Ashr(($266|0),($267|0),25)|0); + $269 = tempRet0; + $270 = (_i64Add(($122|0),($123|0),($108|0),($109|0))|0); + $271 = tempRet0; + $272 = (_i64Add(($270|0),($271|0),($88|0),($89|0))|0); + $273 = tempRet0; + $274 = (_i64Add(($272|0),($273|0),($60|0),($61|0))|0); + $275 = tempRet0; + $276 = (_i64Add(($274|0),($275|0),($182|0),($183|0))|0); + $277 = tempRet0; + $278 = (_i64Add(($276|0),($277|0),($180|0),($181|0))|0); + $279 = tempRet0; + $280 = (_i64Add(($278|0),($279|0),($268|0),($269|0))|0); + $281 = tempRet0; + $282 = (_bitshift64Shl(($268|0),($269|0),25)|0); + $283 = tempRet0; + $284 = (_i64Subtract(($242|0),($243|0),($282|0),($283|0))|0); + $285 = tempRet0; + $286 = (_i64Add(($260|0),($261|0),33554432,0)|0); + $287 = tempRet0; + $288 = (_bitshift64Ashr(($286|0),($287|0),26)|0); + $289 = tempRet0; + $290 = (_i64Add(($200|0),($201|0),($168|0),($169|0))|0); + $291 = tempRet0; + $292 = (_i64Add(($290|0),($291|0),($162|0),($163|0))|0); + $293 = tempRet0; + $294 = (_i64Add(($292|0),($293|0),($152|0),($153|0))|0); + $295 = tempRet0; + $296 = (_i64Add(($294|0),($295|0),($288|0),($289|0))|0); + $297 = tempRet0; + $298 = (_bitshift64Shl(($288|0),($289|0),26)|0); + $299 = tempRet0; + $300 = (_i64Subtract(($260|0),($261|0),($298|0),($299|0))|0); + $301 = tempRet0; + $302 = (_i64Add(($280|0),($281|0),33554432,0)|0); + $303 = tempRet0; + $304 = (_bitshift64Ashr(($302|0),($303|0),26)|0); + $305 = tempRet0; + $306 = (_i64Add(($110|0),($111|0),($124|0),($125|0))|0); + $307 = tempRet0; + $308 = (_i64Add(($306|0),($307|0),($90|0),($91|0))|0); + $309 = tempRet0; + $310 = (_i64Add(($308|0),($309|0),($64|0),($65|0))|0); + $311 = tempRet0; + $312 = (_i64Add(($310|0),($311|0),($184|0),($185|0))|0); + $313 = tempRet0; + $314 = (_i64Add(($312|0),($313|0),($304|0),($305|0))|0); + $315 = tempRet0; + $316 = (_bitshift64Shl(($304|0),($305|0),26)|0); + $317 = tempRet0; + $318 = (_i64Subtract(($280|0),($281|0),($316|0),($317|0))|0); + $319 = tempRet0; + $320 = (_i64Add(($296|0),($297|0),16777216,0)|0); + $321 = tempRet0; + $322 = (_bitshift64Ashr(($320|0),($321|0),25)|0); + $323 = tempRet0; + $324 = (_i64Add(($322|0),($323|0),($246|0),($247|0))|0); + $325 = tempRet0; + $326 = (_bitshift64Shl(($322|0),($323|0),25)|0); + $327 = tempRet0; + $328 = (_i64Subtract(($296|0),($297|0),($326|0),($327|0))|0); + $329 = tempRet0; + $330 = (_i64Add(($314|0),($315|0),16777216,0)|0); + $331 = tempRet0; + $332 = (_bitshift64Ashr(($330|0),($331|0),25)|0); + $333 = tempRet0; + $334 = (_i64Add(($112|0),($113|0),($138|0),($139|0))|0); + $335 = tempRet0; + $336 = (_i64Add(($334|0),($335|0),($126|0),($127|0))|0); + $337 = tempRet0; + $338 = (_i64Add(($336|0),($337|0),($94|0),($95|0))|0); + $339 = tempRet0; + $340 = (_i64Add(($338|0),($339|0),($68|0),($69|0))|0); + $341 = tempRet0; + $342 = (_i64Add(($340|0),($341|0),($186|0),($187|0))|0); + $343 = tempRet0; + $344 = (_i64Add(($342|0),($343|0),($332|0),($333|0))|0); + $345 = tempRet0; + $346 = (_bitshift64Shl(($332|0),($333|0),25)|0); + $347 = tempRet0; + $348 = (_i64Subtract(($314|0),($315|0),($346|0),($347|0))|0); + $349 = tempRet0; + $350 = (_i64Add(($324|0),($325|0),33554432,0)|0); + $351 = tempRet0; + $352 = (_bitshift64Ashr(($350|0),($351|0),26)|0); + $353 = tempRet0; + $354 = (_i64Add(($284|0),($285|0),($352|0),($353|0))|0); + $355 = tempRet0; + $356 = (_bitshift64Shl(($352|0),($353|0),26)|0); + $357 = tempRet0; + $358 = (_i64Subtract(($324|0),($325|0),($356|0),($357|0))|0); + $359 = tempRet0; + $360 = (_i64Add(($344|0),($345|0),33554432,0)|0); + $361 = tempRet0; + $362 = (_bitshift64Ashr(($360|0),($361|0),26)|0); + $363 = tempRet0; + $364 = (_i64Add(($128|0),($129|0),($142|0),($143|0))|0); + $365 = tempRet0; + $366 = (_i64Add(($364|0),($365|0),($114|0),($115|0))|0); + $367 = tempRet0; + $368 = (_i64Add(($366|0),($367|0),($96|0),($97|0))|0); + $369 = tempRet0; + $370 = (_i64Add(($368|0),($369|0),($72|0),($73|0))|0); + $371 = tempRet0; + $372 = (_i64Add(($370|0),($371|0),($362|0),($363|0))|0); + $373 = tempRet0; + $374 = (_bitshift64Shl(($362|0),($363|0),26)|0); + $375 = tempRet0; + $376 = (_i64Subtract(($344|0),($345|0),($374|0),($375|0))|0); + $377 = tempRet0; + $378 = (_i64Add(($372|0),($373|0),16777216,0)|0); + $379 = tempRet0; + $380 = (_bitshift64Ashr(($378|0),($379|0),25)|0); + $381 = tempRet0; + $382 = (___muldi3(($380|0),($381|0),19,0)|0); + $383 = tempRet0; + $384 = (_i64Add(($382|0),($383|0),($228|0),($229|0))|0); + $385 = tempRet0; + $386 = (_bitshift64Shl(($380|0),($381|0),25)|0); + $387 = tempRet0; + $388 = (_i64Subtract(($372|0),($373|0),($386|0),($387|0))|0); + $389 = tempRet0; + $390 = (_i64Add(($384|0),($385|0),33554432,0)|0); + $391 = tempRet0; + $392 = (_bitshift64Ashr(($390|0),($391|0),26)|0); + $393 = tempRet0; + $394 = (_i64Add(($264|0),($265|0),($392|0),($393|0))|0); + $395 = tempRet0; + $396 = (_bitshift64Shl(($392|0),($393|0),26)|0); + $397 = tempRet0; + $398 = (_i64Subtract(($384|0),($385|0),($396|0),($397|0))|0); + $399 = tempRet0; + HEAP32[$h>>2] = $398; + $400 = (($h) + 4|0); + HEAP32[$400>>2] = $394; + $401 = (($h) + 8|0); + HEAP32[$401>>2] = $300; + $402 = (($h) + 12|0); + HEAP32[$402>>2] = $328; + $403 = (($h) + 16|0); + HEAP32[$403>>2] = $358; + $404 = (($h) + 20|0); + HEAP32[$404>>2] = $354; + $405 = (($h) + 24|0); + HEAP32[$405>>2] = $318; + $406 = (($h) + 28|0); + HEAP32[$406>>2] = $348; + $407 = (($h) + 32|0); + HEAP32[$407>>2] = $376; + $408 = (($h) + 36|0); + HEAP32[$408>>2] = $388; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_sq2($h,$f) { + $h = $h|0; + $f = $f|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0; + var $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0; + var $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0; + var $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0; + var $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0; + var $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0; + var $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0; + var $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0; + var $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0; + var $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0; + var $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0; + var $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0; + var $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0; + var $422 = 0, $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0; + var $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0, $72 = 0; + var $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0, $90 = 0; + var $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = $0 << 1; + $20 = $2 << 1; + $21 = $4 << 1; + $22 = $6 << 1; + $23 = $8 << 1; + $24 = $10 << 1; + $25 = $12 << 1; + $26 = $14 << 1; + $27 = ($10*38)|0; + $28 = ($12*19)|0; + $29 = ($14*38)|0; + $30 = ($16*19)|0; + $31 = ($18*38)|0; + $32 = ($0|0)<(0); + $33 = $32 << 31 >> 31; + $34 = (___muldi3(($0|0),($33|0),($0|0),($33|0))|0); + $35 = tempRet0; + $36 = ($19|0)<(0); + $37 = $36 << 31 >> 31; + $38 = ($2|0)<(0); + $39 = $38 << 31 >> 31; + $40 = (___muldi3(($19|0),($37|0),($2|0),($39|0))|0); + $41 = tempRet0; + $42 = ($4|0)<(0); + $43 = $42 << 31 >> 31; + $44 = (___muldi3(($4|0),($43|0),($19|0),($37|0))|0); + $45 = tempRet0; + $46 = ($6|0)<(0); + $47 = $46 << 31 >> 31; + $48 = (___muldi3(($6|0),($47|0),($19|0),($37|0))|0); + $49 = tempRet0; + $50 = ($8|0)<(0); + $51 = $50 << 31 >> 31; + $52 = (___muldi3(($8|0),($51|0),($19|0),($37|0))|0); + $53 = tempRet0; + $54 = ($10|0)<(0); + $55 = $54 << 31 >> 31; + $56 = (___muldi3(($10|0),($55|0),($19|0),($37|0))|0); + $57 = tempRet0; + $58 = ($12|0)<(0); + $59 = $58 << 31 >> 31; + $60 = (___muldi3(($12|0),($59|0),($19|0),($37|0))|0); + $61 = tempRet0; + $62 = ($14|0)<(0); + $63 = $62 << 31 >> 31; + $64 = (___muldi3(($14|0),($63|0),($19|0),($37|0))|0); + $65 = tempRet0; + $66 = ($16|0)<(0); + $67 = $66 << 31 >> 31; + $68 = (___muldi3(($16|0),($67|0),($19|0),($37|0))|0); + $69 = tempRet0; + $70 = ($18|0)<(0); + $71 = $70 << 31 >> 31; + $72 = (___muldi3(($18|0),($71|0),($19|0),($37|0))|0); + $73 = tempRet0; + $74 = ($20|0)<(0); + $75 = $74 << 31 >> 31; + $76 = (___muldi3(($20|0),($75|0),($2|0),($39|0))|0); + $77 = tempRet0; + $78 = (___muldi3(($20|0),($75|0),($4|0),($43|0))|0); + $79 = tempRet0; + $80 = ($22|0)<(0); + $81 = $80 << 31 >> 31; + $82 = (___muldi3(($22|0),($81|0),($20|0),($75|0))|0); + $83 = tempRet0; + $84 = (___muldi3(($8|0),($51|0),($20|0),($75|0))|0); + $85 = tempRet0; + $86 = ($24|0)<(0); + $87 = $86 << 31 >> 31; + $88 = (___muldi3(($24|0),($87|0),($20|0),($75|0))|0); + $89 = tempRet0; + $90 = (___muldi3(($12|0),($59|0),($20|0),($75|0))|0); + $91 = tempRet0; + $92 = ($26|0)<(0); + $93 = $92 << 31 >> 31; + $94 = (___muldi3(($26|0),($93|0),($20|0),($75|0))|0); + $95 = tempRet0; + $96 = (___muldi3(($16|0),($67|0),($20|0),($75|0))|0); + $97 = tempRet0; + $98 = ($31|0)<(0); + $99 = $98 << 31 >> 31; + $100 = (___muldi3(($31|0),($99|0),($20|0),($75|0))|0); + $101 = tempRet0; + $102 = (___muldi3(($4|0),($43|0),($4|0),($43|0))|0); + $103 = tempRet0; + $104 = ($21|0)<(0); + $105 = $104 << 31 >> 31; + $106 = (___muldi3(($21|0),($105|0),($6|0),($47|0))|0); + $107 = tempRet0; + $108 = (___muldi3(($8|0),($51|0),($21|0),($105|0))|0); + $109 = tempRet0; + $110 = (___muldi3(($10|0),($55|0),($21|0),($105|0))|0); + $111 = tempRet0; + $112 = (___muldi3(($12|0),($59|0),($21|0),($105|0))|0); + $113 = tempRet0; + $114 = (___muldi3(($14|0),($63|0),($21|0),($105|0))|0); + $115 = tempRet0; + $116 = ($30|0)<(0); + $117 = $116 << 31 >> 31; + $118 = (___muldi3(($30|0),($117|0),($21|0),($105|0))|0); + $119 = tempRet0; + $120 = (___muldi3(($31|0),($99|0),($4|0),($43|0))|0); + $121 = tempRet0; + $122 = (___muldi3(($22|0),($81|0),($6|0),($47|0))|0); + $123 = tempRet0; + $124 = (___muldi3(($22|0),($81|0),($8|0),($51|0))|0); + $125 = tempRet0; + $126 = (___muldi3(($24|0),($87|0),($22|0),($81|0))|0); + $127 = tempRet0; + $128 = (___muldi3(($12|0),($59|0),($22|0),($81|0))|0); + $129 = tempRet0; + $130 = ($29|0)<(0); + $131 = $130 << 31 >> 31; + $132 = (___muldi3(($29|0),($131|0),($22|0),($81|0))|0); + $133 = tempRet0; + $134 = (___muldi3(($30|0),($117|0),($22|0),($81|0))|0); + $135 = tempRet0; + $136 = (___muldi3(($31|0),($99|0),($22|0),($81|0))|0); + $137 = tempRet0; + $138 = (___muldi3(($8|0),($51|0),($8|0),($51|0))|0); + $139 = tempRet0; + $140 = ($23|0)<(0); + $141 = $140 << 31 >> 31; + $142 = (___muldi3(($23|0),($141|0),($10|0),($55|0))|0); + $143 = tempRet0; + $144 = ($28|0)<(0); + $145 = $144 << 31 >> 31; + $146 = (___muldi3(($28|0),($145|0),($23|0),($141|0))|0); + $147 = tempRet0; + $148 = (___muldi3(($29|0),($131|0),($8|0),($51|0))|0); + $149 = tempRet0; + $150 = (___muldi3(($30|0),($117|0),($23|0),($141|0))|0); + $151 = tempRet0; + $152 = (___muldi3(($31|0),($99|0),($8|0),($51|0))|0); + $153 = tempRet0; + $154 = ($27|0)<(0); + $155 = $154 << 31 >> 31; + $156 = (___muldi3(($27|0),($155|0),($10|0),($55|0))|0); + $157 = tempRet0; + $158 = (___muldi3(($28|0),($145|0),($24|0),($87|0))|0); + $159 = tempRet0; + $160 = (___muldi3(($29|0),($131|0),($24|0),($87|0))|0); + $161 = tempRet0; + $162 = (___muldi3(($30|0),($117|0),($24|0),($87|0))|0); + $163 = tempRet0; + $164 = (___muldi3(($31|0),($99|0),($24|0),($87|0))|0); + $165 = tempRet0; + $166 = (___muldi3(($28|0),($145|0),($12|0),($59|0))|0); + $167 = tempRet0; + $168 = (___muldi3(($29|0),($131|0),($12|0),($59|0))|0); + $169 = tempRet0; + $170 = ($25|0)<(0); + $171 = $170 << 31 >> 31; + $172 = (___muldi3(($30|0),($117|0),($25|0),($171|0))|0); + $173 = tempRet0; + $174 = (___muldi3(($31|0),($99|0),($12|0),($59|0))|0); + $175 = tempRet0; + $176 = (___muldi3(($29|0),($131|0),($14|0),($63|0))|0); + $177 = tempRet0; + $178 = (___muldi3(($30|0),($117|0),($26|0),($93|0))|0); + $179 = tempRet0; + $180 = (___muldi3(($31|0),($99|0),($26|0),($93|0))|0); + $181 = tempRet0; + $182 = (___muldi3(($30|0),($117|0),($16|0),($67|0))|0); + $183 = tempRet0; + $184 = (___muldi3(($31|0),($99|0),($16|0),($67|0))|0); + $185 = tempRet0; + $186 = (___muldi3(($31|0),($99|0),($18|0),($71|0))|0); + $187 = tempRet0; + $188 = (_i64Add(($156|0),($157|0),($34|0),($35|0))|0); + $189 = tempRet0; + $190 = (_i64Add(($188|0),($189|0),($146|0),($147|0))|0); + $191 = tempRet0; + $192 = (_i64Add(($190|0),($191|0),($132|0),($133|0))|0); + $193 = tempRet0; + $194 = (_i64Add(($192|0),($193|0),($118|0),($119|0))|0); + $195 = tempRet0; + $196 = (_i64Add(($194|0),($195|0),($100|0),($101|0))|0); + $197 = tempRet0; + $198 = (_i64Add(($158|0),($159|0),($40|0),($41|0))|0); + $199 = tempRet0; + $200 = (_i64Add(($198|0),($199|0),($148|0),($149|0))|0); + $201 = tempRet0; + $202 = (_i64Add(($200|0),($201|0),($134|0),($135|0))|0); + $203 = tempRet0; + $204 = (_i64Add(($202|0),($203|0),($120|0),($121|0))|0); + $205 = tempRet0; + $206 = (_i64Add(($44|0),($45|0),($76|0),($77|0))|0); + $207 = tempRet0; + $208 = (_i64Add(($206|0),($207|0),($166|0),($167|0))|0); + $209 = tempRet0; + $210 = (_i64Add(($208|0),($209|0),($160|0),($161|0))|0); + $211 = tempRet0; + $212 = (_i64Add(($210|0),($211|0),($150|0),($151|0))|0); + $213 = tempRet0; + $214 = (_i64Add(($212|0),($213|0),($136|0),($137|0))|0); + $215 = tempRet0; + $216 = (_i64Add(($48|0),($49|0),($78|0),($79|0))|0); + $217 = tempRet0; + $218 = (_i64Add(($216|0),($217|0),($168|0),($169|0))|0); + $219 = tempRet0; + $220 = (_i64Add(($218|0),($219|0),($162|0),($163|0))|0); + $221 = tempRet0; + $222 = (_i64Add(($220|0),($221|0),($152|0),($153|0))|0); + $223 = tempRet0; + $224 = (_i64Add(($82|0),($83|0),($102|0),($103|0))|0); + $225 = tempRet0; + $226 = (_i64Add(($224|0),($225|0),($52|0),($53|0))|0); + $227 = tempRet0; + $228 = (_i64Add(($226|0),($227|0),($176|0),($177|0))|0); + $229 = tempRet0; + $230 = (_i64Add(($228|0),($229|0),($172|0),($173|0))|0); + $231 = tempRet0; + $232 = (_i64Add(($230|0),($231|0),($164|0),($165|0))|0); + $233 = tempRet0; + $234 = (_i64Add(($84|0),($85|0),($106|0),($107|0))|0); + $235 = tempRet0; + $236 = (_i64Add(($234|0),($235|0),($56|0),($57|0))|0); + $237 = tempRet0; + $238 = (_i64Add(($236|0),($237|0),($178|0),($179|0))|0); + $239 = tempRet0; + $240 = (_i64Add(($238|0),($239|0),($174|0),($175|0))|0); + $241 = tempRet0; + $242 = (_i64Add(($122|0),($123|0),($108|0),($109|0))|0); + $243 = tempRet0; + $244 = (_i64Add(($242|0),($243|0),($88|0),($89|0))|0); + $245 = tempRet0; + $246 = (_i64Add(($244|0),($245|0),($60|0),($61|0))|0); + $247 = tempRet0; + $248 = (_i64Add(($246|0),($247|0),($182|0),($183|0))|0); + $249 = tempRet0; + $250 = (_i64Add(($248|0),($249|0),($180|0),($181|0))|0); + $251 = tempRet0; + $252 = (_i64Add(($110|0),($111|0),($124|0),($125|0))|0); + $253 = tempRet0; + $254 = (_i64Add(($252|0),($253|0),($90|0),($91|0))|0); + $255 = tempRet0; + $256 = (_i64Add(($254|0),($255|0),($64|0),($65|0))|0); + $257 = tempRet0; + $258 = (_i64Add(($256|0),($257|0),($184|0),($185|0))|0); + $259 = tempRet0; + $260 = (_i64Add(($112|0),($113|0),($138|0),($139|0))|0); + $261 = tempRet0; + $262 = (_i64Add(($260|0),($261|0),($126|0),($127|0))|0); + $263 = tempRet0; + $264 = (_i64Add(($262|0),($263|0),($94|0),($95|0))|0); + $265 = tempRet0; + $266 = (_i64Add(($264|0),($265|0),($68|0),($69|0))|0); + $267 = tempRet0; + $268 = (_i64Add(($266|0),($267|0),($186|0),($187|0))|0); + $269 = tempRet0; + $270 = (_i64Add(($128|0),($129|0),($142|0),($143|0))|0); + $271 = tempRet0; + $272 = (_i64Add(($270|0),($271|0),($114|0),($115|0))|0); + $273 = tempRet0; + $274 = (_i64Add(($272|0),($273|0),($96|0),($97|0))|0); + $275 = tempRet0; + $276 = (_i64Add(($274|0),($275|0),($72|0),($73|0))|0); + $277 = tempRet0; + $278 = (_bitshift64Shl(($196|0),($197|0),1)|0); + $279 = tempRet0; + $280 = (_bitshift64Shl(($204|0),($205|0),1)|0); + $281 = tempRet0; + $282 = (_bitshift64Shl(($214|0),($215|0),1)|0); + $283 = tempRet0; + $284 = (_bitshift64Shl(($222|0),($223|0),1)|0); + $285 = tempRet0; + $286 = (_bitshift64Shl(($232|0),($233|0),1)|0); + $287 = tempRet0; + $288 = (_bitshift64Shl(($240|0),($241|0),1)|0); + $289 = tempRet0; + $290 = (_bitshift64Shl(($250|0),($251|0),1)|0); + $291 = tempRet0; + $292 = (_bitshift64Shl(($258|0),($259|0),1)|0); + $293 = tempRet0; + $294 = (_bitshift64Shl(($268|0),($269|0),1)|0); + $295 = tempRet0; + $296 = (_bitshift64Shl(($276|0),($277|0),1)|0); + $297 = tempRet0; + $298 = (_i64Add(($278|0),($279|0),33554432,0)|0); + $299 = tempRet0; + $300 = (_bitshift64Ashr(($298|0),($299|0),26)|0); + $301 = tempRet0; + $302 = (_i64Add(($300|0),($301|0),($280|0),($281|0))|0); + $303 = tempRet0; + $304 = (_bitshift64Shl(($300|0),($301|0),26)|0); + $305 = tempRet0; + $306 = (_i64Subtract(($278|0),($279|0),($304|0),($305|0))|0); + $307 = tempRet0; + $308 = (_i64Add(($286|0),($287|0),33554432,0)|0); + $309 = tempRet0; + $310 = (_bitshift64Ashr(($308|0),($309|0),26)|0); + $311 = tempRet0; + $312 = (_i64Add(($310|0),($311|0),($288|0),($289|0))|0); + $313 = tempRet0; + $314 = (_bitshift64Shl(($310|0),($311|0),26)|0); + $315 = tempRet0; + $316 = (_i64Subtract(($286|0),($287|0),($314|0),($315|0))|0); + $317 = tempRet0; + $318 = (_i64Add(($302|0),($303|0),16777216,0)|0); + $319 = tempRet0; + $320 = (_bitshift64Ashr(($318|0),($319|0),25)|0); + $321 = tempRet0; + $322 = (_i64Add(($320|0),($321|0),($282|0),($283|0))|0); + $323 = tempRet0; + $324 = (_bitshift64Shl(($320|0),($321|0),25)|0); + $325 = tempRet0; + $326 = (_i64Subtract(($302|0),($303|0),($324|0),($325|0))|0); + $327 = tempRet0; + $328 = (_i64Add(($312|0),($313|0),16777216,0)|0); + $329 = tempRet0; + $330 = (_bitshift64Ashr(($328|0),($329|0),25)|0); + $331 = tempRet0; + $332 = (_i64Add(($330|0),($331|0),($290|0),($291|0))|0); + $333 = tempRet0; + $334 = (_bitshift64Shl(($330|0),($331|0),25)|0); + $335 = tempRet0; + $336 = (_i64Subtract(($312|0),($313|0),($334|0),($335|0))|0); + $337 = tempRet0; + $338 = (_i64Add(($322|0),($323|0),33554432,0)|0); + $339 = tempRet0; + $340 = (_bitshift64Ashr(($338|0),($339|0),26)|0); + $341 = tempRet0; + $342 = (_i64Add(($340|0),($341|0),($284|0),($285|0))|0); + $343 = tempRet0; + $344 = (_bitshift64Shl(($340|0),($341|0),26)|0); + $345 = tempRet0; + $346 = (_i64Subtract(($322|0),($323|0),($344|0),($345|0))|0); + $347 = tempRet0; + $348 = (_i64Add(($332|0),($333|0),33554432,0)|0); + $349 = tempRet0; + $350 = (_bitshift64Ashr(($348|0),($349|0),26)|0); + $351 = tempRet0; + $352 = (_i64Add(($350|0),($351|0),($292|0),($293|0))|0); + $353 = tempRet0; + $354 = (_bitshift64Shl(($350|0),($351|0),26)|0); + $355 = tempRet0; + $356 = (_i64Subtract(($332|0),($333|0),($354|0),($355|0))|0); + $357 = tempRet0; + $358 = (_i64Add(($342|0),($343|0),16777216,0)|0); + $359 = tempRet0; + $360 = (_bitshift64Ashr(($358|0),($359|0),25)|0); + $361 = tempRet0; + $362 = (_i64Add(($360|0),($361|0),($316|0),($317|0))|0); + $363 = tempRet0; + $364 = (_bitshift64Shl(($360|0),($361|0),25)|0); + $365 = tempRet0; + $366 = (_i64Subtract(($342|0),($343|0),($364|0),($365|0))|0); + $367 = tempRet0; + $368 = (_i64Add(($352|0),($353|0),16777216,0)|0); + $369 = tempRet0; + $370 = (_bitshift64Ashr(($368|0),($369|0),25)|0); + $371 = tempRet0; + $372 = (_i64Add(($370|0),($371|0),($294|0),($295|0))|0); + $373 = tempRet0; + $374 = (_bitshift64Shl(($370|0),($371|0),25)|0); + $375 = tempRet0; + $376 = (_i64Subtract(($352|0),($353|0),($374|0),($375|0))|0); + $377 = tempRet0; + $378 = (_i64Add(($362|0),($363|0),33554432,0)|0); + $379 = tempRet0; + $380 = (_bitshift64Ashr(($378|0),($379|0),26)|0); + $381 = tempRet0; + $382 = (_i64Add(($336|0),($337|0),($380|0),($381|0))|0); + $383 = tempRet0; + $384 = (_bitshift64Shl(($380|0),($381|0),26)|0); + $385 = tempRet0; + $386 = (_i64Subtract(($362|0),($363|0),($384|0),($385|0))|0); + $387 = tempRet0; + $388 = (_i64Add(($372|0),($373|0),33554432,0)|0); + $389 = tempRet0; + $390 = (_bitshift64Ashr(($388|0),($389|0),26)|0); + $391 = tempRet0; + $392 = (_i64Add(($390|0),($391|0),($296|0),($297|0))|0); + $393 = tempRet0; + $394 = (_bitshift64Shl(($390|0),($391|0),26)|0); + $395 = tempRet0; + $396 = (_i64Subtract(($372|0),($373|0),($394|0),($395|0))|0); + $397 = tempRet0; + $398 = (_i64Add(($392|0),($393|0),16777216,0)|0); + $399 = tempRet0; + $400 = (_bitshift64Ashr(($398|0),($399|0),25)|0); + $401 = tempRet0; + $402 = (___muldi3(($400|0),($401|0),19,0)|0); + $403 = tempRet0; + $404 = (_i64Add(($402|0),($403|0),($306|0),($307|0))|0); + $405 = tempRet0; + $406 = (_bitshift64Shl(($400|0),($401|0),25)|0); + $407 = tempRet0; + $408 = (_i64Subtract(($392|0),($393|0),($406|0),($407|0))|0); + $409 = tempRet0; + $410 = (_i64Add(($404|0),($405|0),33554432,0)|0); + $411 = tempRet0; + $412 = (_bitshift64Ashr(($410|0),($411|0),26)|0); + $413 = tempRet0; + $414 = (_i64Add(($326|0),($327|0),($412|0),($413|0))|0); + $415 = tempRet0; + $416 = (_bitshift64Shl(($412|0),($413|0),26)|0); + $417 = tempRet0; + $418 = (_i64Subtract(($404|0),($405|0),($416|0),($417|0))|0); + $419 = tempRet0; + HEAP32[$h>>2] = $418; + $420 = (($h) + 4|0); + HEAP32[$420>>2] = $414; + $421 = (($h) + 8|0); + HEAP32[$421>>2] = $346; + $422 = (($h) + 12|0); + HEAP32[$422>>2] = $366; + $423 = (($h) + 16|0); + HEAP32[$423>>2] = $386; + $424 = (($h) + 20|0); + HEAP32[$424>>2] = $382; + $425 = (($h) + 24|0); + HEAP32[$425>>2] = $356; + $426 = (($h) + 28|0); + HEAP32[$426>>2] = $376; + $427 = (($h) + 32|0); + HEAP32[$427>>2] = $396; + $428 = (($h) + 36|0); + HEAP32[$428>>2] = $408; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_sub($h,$f,$g) { + $h = $h|0; + $f = $f|0; + $g = $g|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0; + var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$f>>2]|0; + $1 = (($f) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($f) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($f) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($f) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($f) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($f) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($f) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($f) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($f) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = HEAP32[$g>>2]|0; + $20 = (($g) + 4|0); + $21 = HEAP32[$20>>2]|0; + $22 = (($g) + 8|0); + $23 = HEAP32[$22>>2]|0; + $24 = (($g) + 12|0); + $25 = HEAP32[$24>>2]|0; + $26 = (($g) + 16|0); + $27 = HEAP32[$26>>2]|0; + $28 = (($g) + 20|0); + $29 = HEAP32[$28>>2]|0; + $30 = (($g) + 24|0); + $31 = HEAP32[$30>>2]|0; + $32 = (($g) + 28|0); + $33 = HEAP32[$32>>2]|0; + $34 = (($g) + 32|0); + $35 = HEAP32[$34>>2]|0; + $36 = (($g) + 36|0); + $37 = HEAP32[$36>>2]|0; + $38 = (($0) - ($19))|0; + $39 = (($2) - ($21))|0; + $40 = (($4) - ($23))|0; + $41 = (($6) - ($25))|0; + $42 = (($8) - ($27))|0; + $43 = (($10) - ($29))|0; + $44 = (($12) - ($31))|0; + $45 = (($14) - ($33))|0; + $46 = (($16) - ($35))|0; + $47 = (($18) - ($37))|0; + HEAP32[$h>>2] = $38; + $48 = (($h) + 4|0); + HEAP32[$48>>2] = $39; + $49 = (($h) + 8|0); + HEAP32[$49>>2] = $40; + $50 = (($h) + 12|0); + HEAP32[$50>>2] = $41; + $51 = (($h) + 16|0); + HEAP32[$51>>2] = $42; + $52 = (($h) + 20|0); + HEAP32[$52>>2] = $43; + $53 = (($h) + 24|0); + HEAP32[$53>>2] = $44; + $54 = (($h) + 28|0); + HEAP32[$54>>2] = $45; + $55 = (($h) + 32|0); + HEAP32[$55>>2] = $46; + $56 = (($h) + 36|0); + HEAP32[$56>>2] = $47; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_fe_tobytes($s,$h) { + $s = $s|0; + $h = $h|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0; + var $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $52 = 0, $53 = 0; + var $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0, $7 = 0, $70 = 0, $71 = 0; + var $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0, $88 = 0, $89 = 0, $9 = 0; + var $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP32[$h>>2]|0; + $1 = (($h) + 4|0); + $2 = HEAP32[$1>>2]|0; + $3 = (($h) + 8|0); + $4 = HEAP32[$3>>2]|0; + $5 = (($h) + 12|0); + $6 = HEAP32[$5>>2]|0; + $7 = (($h) + 16|0); + $8 = HEAP32[$7>>2]|0; + $9 = (($h) + 20|0); + $10 = HEAP32[$9>>2]|0; + $11 = (($h) + 24|0); + $12 = HEAP32[$11>>2]|0; + $13 = (($h) + 28|0); + $14 = HEAP32[$13>>2]|0; + $15 = (($h) + 32|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($h) + 36|0); + $18 = HEAP32[$17>>2]|0; + $19 = ($18*19)|0; + $20 = (($19) + 16777216)|0; + $21 = $20 >> 25; + $22 = (($21) + ($0))|0; + $23 = $22 >> 26; + $24 = (($23) + ($2))|0; + $25 = $24 >> 25; + $26 = (($25) + ($4))|0; + $27 = $26 >> 26; + $28 = (($27) + ($6))|0; + $29 = $28 >> 25; + $30 = (($29) + ($8))|0; + $31 = $30 >> 26; + $32 = (($31) + ($10))|0; + $33 = $32 >> 25; + $34 = (($33) + ($12))|0; + $35 = $34 >> 26; + $36 = (($35) + ($14))|0; + $37 = $36 >> 25; + $38 = (($37) + ($16))|0; + $39 = $38 >> 26; + $40 = (($39) + ($18))|0; + $41 = $40 >> 25; + $42 = ($41*19)|0; + $43 = (($42) + ($0))|0; + $44 = $43 >> 26; + $45 = (($44) + ($2))|0; + $46 = $44 << 26; + $47 = (($43) - ($46))|0; + $48 = $45 >> 25; + $49 = (($48) + ($4))|0; + $50 = $48 << 25; + $51 = (($45) - ($50))|0; + $52 = $49 >> 26; + $53 = (($52) + ($6))|0; + $54 = $52 << 26; + $55 = (($49) - ($54))|0; + $56 = $53 >> 25; + $57 = (($56) + ($8))|0; + $58 = $56 << 25; + $59 = (($53) - ($58))|0; + $60 = $57 >> 26; + $61 = (($60) + ($10))|0; + $62 = $60 << 26; + $63 = (($57) - ($62))|0; + $64 = $61 >> 25; + $65 = (($64) + ($12))|0; + $66 = $64 << 25; + $67 = (($61) - ($66))|0; + $68 = $65 >> 26; + $69 = (($68) + ($14))|0; + $70 = $68 << 26; + $71 = (($65) - ($70))|0; + $72 = $69 >> 25; + $73 = (($72) + ($16))|0; + $74 = $72 << 25; + $75 = (($69) - ($74))|0; + $76 = $73 >> 26; + $77 = (($76) + ($18))|0; + $78 = $76 << 26; + $79 = (($73) - ($78))|0; + $80 = $77 & 33554431; + $81 = $47&255; + HEAP8[$s>>0] = $81; + $82 = $47 >>> 8; + $83 = $82&255; + $84 = (($s) + 1|0); + HEAP8[$84>>0] = $83; + $85 = $47 >>> 16; + $86 = $85&255; + $87 = (($s) + 2|0); + HEAP8[$87>>0] = $86; + $88 = $47 >>> 24; + $89 = $51 << 2; + $90 = $89 | $88; + $91 = $90&255; + $92 = (($s) + 3|0); + HEAP8[$92>>0] = $91; + $93 = $51 >>> 6; + $94 = $93&255; + $95 = (($s) + 4|0); + HEAP8[$95>>0] = $94; + $96 = $51 >>> 14; + $97 = $96&255; + $98 = (($s) + 5|0); + HEAP8[$98>>0] = $97; + $99 = $51 >>> 22; + $100 = $55 << 3; + $101 = $100 | $99; + $102 = $101&255; + $103 = (($s) + 6|0); + HEAP8[$103>>0] = $102; + $104 = $55 >>> 5; + $105 = $104&255; + $106 = (($s) + 7|0); + HEAP8[$106>>0] = $105; + $107 = $55 >>> 13; + $108 = $107&255; + $109 = (($s) + 8|0); + HEAP8[$109>>0] = $108; + $110 = $55 >>> 21; + $111 = $59 << 5; + $112 = $111 | $110; + $113 = $112&255; + $114 = (($s) + 9|0); + HEAP8[$114>>0] = $113; + $115 = $59 >>> 3; + $116 = $115&255; + $117 = (($s) + 10|0); + HEAP8[$117>>0] = $116; + $118 = $59 >>> 11; + $119 = $118&255; + $120 = (($s) + 11|0); + HEAP8[$120>>0] = $119; + $121 = $59 >>> 19; + $122 = $63 << 6; + $123 = $122 | $121; + $124 = $123&255; + $125 = (($s) + 12|0); + HEAP8[$125>>0] = $124; + $126 = $63 >>> 2; + $127 = $126&255; + $128 = (($s) + 13|0); + HEAP8[$128>>0] = $127; + $129 = $63 >>> 10; + $130 = $129&255; + $131 = (($s) + 14|0); + HEAP8[$131>>0] = $130; + $132 = $63 >>> 18; + $133 = $132&255; + $134 = (($s) + 15|0); + HEAP8[$134>>0] = $133; + $135 = $67&255; + $136 = (($s) + 16|0); + HEAP8[$136>>0] = $135; + $137 = $67 >>> 8; + $138 = $137&255; + $139 = (($s) + 17|0); + HEAP8[$139>>0] = $138; + $140 = $67 >>> 16; + $141 = $140&255; + $142 = (($s) + 18|0); + HEAP8[$142>>0] = $141; + $143 = $67 >>> 24; + $144 = $71 << 1; + $145 = $144 | $143; + $146 = $145&255; + $147 = (($s) + 19|0); + HEAP8[$147>>0] = $146; + $148 = $71 >>> 7; + $149 = $148&255; + $150 = (($s) + 20|0); + HEAP8[$150>>0] = $149; + $151 = $71 >>> 15; + $152 = $151&255; + $153 = (($s) + 21|0); + HEAP8[$153>>0] = $152; + $154 = $71 >>> 23; + $155 = $75 << 3; + $156 = $155 | $154; + $157 = $156&255; + $158 = (($s) + 22|0); + HEAP8[$158>>0] = $157; + $159 = $75 >>> 5; + $160 = $159&255; + $161 = (($s) + 23|0); + HEAP8[$161>>0] = $160; + $162 = $75 >>> 13; + $163 = $162&255; + $164 = (($s) + 24|0); + HEAP8[$164>>0] = $163; + $165 = $75 >>> 21; + $166 = $79 << 4; + $167 = $166 | $165; + $168 = $167&255; + $169 = (($s) + 25|0); + HEAP8[$169>>0] = $168; + $170 = $79 >>> 4; + $171 = $170&255; + $172 = (($s) + 26|0); + HEAP8[$172>>0] = $171; + $173 = $79 >>> 12; + $174 = $173&255; + $175 = (($s) + 27|0); + HEAP8[$175>>0] = $174; + $176 = $79 >>> 20; + $177 = $80 << 6; + $178 = $176 | $177; + $179 = $178&255; + $180 = (($s) + 28|0); + HEAP8[$180>>0] = $179; + $181 = $77 >>> 2; + $182 = $181&255; + $183 = (($s) + 29|0); + HEAP8[$183>>0] = $182; + $184 = $77 >>> 10; + $185 = $184&255; + $186 = (($s) + 30|0); + HEAP8[$186>>0] = $185; + $187 = $80 >>> 18; + $188 = $187&255; + $189 = (($s) + 31|0); + HEAP8[$189>>0] = $188; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_add($r,$p,$q) { + $r = $r|0; + $p = $p|0; + $q = $q|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $t0 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 48|0; + $t0 = sp; + $0 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_add($r,$0,$p); + $1 = (($r) + 40|0); + _crypto_sign_ed25519_ref10_fe_sub($1,$0,$p); + $2 = (($r) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($2,$r,$q); + $3 = (($q) + 40|0); + _crypto_sign_ed25519_ref10_fe_mul($1,$1,$3); + $4 = (($r) + 120|0); + $5 = (($q) + 120|0); + $6 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$5,$6); + $7 = (($p) + 80|0); + $8 = (($q) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($r,$7,$8); + _crypto_sign_ed25519_ref10_fe_add($t0,$r,$r); + _crypto_sign_ed25519_ref10_fe_sub($r,$2,$1); + _crypto_sign_ed25519_ref10_fe_add($1,$2,$1); + _crypto_sign_ed25519_ref10_fe_add($2,$t0,$4); + _crypto_sign_ed25519_ref10_fe_sub($4,$t0,$4); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_double_scalarmult_vartime($r,$a,$A,$b) { + $r = $r|0; + $a = $a|0; + $A = $A|0; + $b = $b|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $5 = 0, $6 = 0, $7 = 0; + var $8 = 0, $9 = 0, $A2 = 0, $Ai = 0, $aslide = 0, $bslide = 0, $i$0$lcssa = 0, $i$02 = 0, $i$11 = 0, $t = 0, $u = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 2272|0; + $aslide = sp + 2016|0; + $bslide = sp + 1760|0; + $Ai = sp + 480|0; + $t = sp + 320|0; + $u = sp + 160|0; + $A2 = sp; + _slide($aslide,$a); + _slide($bslide,$b); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($Ai,$A); + _crypto_sign_ed25519_ref10_ge_p3_dbl($t,$A); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($A2,$t); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$Ai); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $0 = (($Ai) + 160|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($0,$u); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$0); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $1 = (($Ai) + 320|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($1,$u); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$1); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $2 = (($Ai) + 480|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($2,$u); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$2); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $3 = (($Ai) + 640|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($3,$u); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$3); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $4 = (($Ai) + 800|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($4,$u); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$4); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $5 = (($Ai) + 960|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($5,$u); + _crypto_sign_ed25519_ref10_ge_add($t,$A2,$5); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $6 = (($Ai) + 1120|0); + _crypto_sign_ed25519_ref10_ge_p3_to_cached($6,$u); + _crypto_sign_ed25519_ref10_ge_p2_0($r); + $i$02 = 255; + while(1) { + $8 = (($aslide) + ($i$02)|0); + $9 = HEAP8[$8>>0]|0; + $10 = ($9<<24>>24)==(0); + if (!($10)) { + $i$0$lcssa = $i$02; + break; + } + $11 = (($bslide) + ($i$02)|0); + $12 = HEAP8[$11>>0]|0; + $13 = ($12<<24>>24)==(0); + $14 = (($i$02) + -1)|0; + if (!($13)) { + $i$0$lcssa = $i$02; + break; + } + $7 = ($i$02|0)>(0); + if ($7) { + $i$02 = $14; + } else { + $i$0$lcssa = $14; + break; + } + } + $15 = ($i$0$lcssa|0)>(-1); + if ($15) { + $i$11 = $i$0$lcssa; + } else { + STACKTOP = sp;return; + } + while(1) { + _crypto_sign_ed25519_ref10_ge_p2_dbl($t,$r); + $16 = (($aslide) + ($i$11)|0); + $17 = HEAP8[$16>>0]|0; + $18 = ($17<<24>>24)>(0); + if ($18) { + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $19 = HEAP8[$16>>0]|0; + $20 = $19 << 24 >> 24; + $21 = (($20|0) / 2)&-1; + $22 = (($Ai) + (($21*160)|0)|0); + _crypto_sign_ed25519_ref10_ge_add($t,$u,$22); + } else { + $23 = ($17<<24>>24)<(0); + if ($23) { + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $24 = HEAP8[$16>>0]|0; + $25 = $24 << 24 >> 24; + $26 = (($25|0) / -2)&-1; + $27 = (($Ai) + (($26*160)|0)|0); + _crypto_sign_ed25519_ref10_ge_sub($t,$u,$27); + } + } + $28 = (($bslide) + ($i$11)|0); + $29 = HEAP8[$28>>0]|0; + $30 = ($29<<24>>24)>(0); + if ($30) { + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $31 = HEAP8[$28>>0]|0; + $32 = $31 << 24 >> 24; + $33 = (($32|0) / 2)&-1; + $34 = (40 + (($33*120)|0)|0); + _crypto_sign_ed25519_ref10_ge_madd($t,$u,$34); + } else { + $35 = ($29<<24>>24)<(0); + if ($35) { + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($u,$t); + $36 = HEAP8[$28>>0]|0; + $37 = $36 << 24 >> 24; + $38 = (($37|0) / -2)&-1; + $39 = (40 + (($38*120)|0)|0); + _crypto_sign_ed25519_ref10_ge_msub($t,$u,$39); + } + } + _crypto_sign_ed25519_ref10_ge_p1p1_to_p2($r,$t); + $40 = (($i$11) + -1)|0; + $41 = ($i$11|0)>(0); + if ($41) { + $i$11 = $40; + } else { + break; + } + } + STACKTOP = sp;return; +} +function _slide($r,$a) { + $r = $r|0; + $a = $a|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $b$03 = 0, $exitcond = 0, $exitcond10 = 0; + var $i$08 = 0, $i$15 = 0, $k$01 = 0, label = 0, sp = 0; + sp = STACKTOP; + $i$08 = 0; + while(1) { + $0 = $i$08 >> 3; + $1 = (($a) + ($0)|0); + $2 = HEAP8[$1>>0]|0; + $3 = $2&255; + $4 = $i$08 & 7; + $5 = $3 >>> $4; + $6 = $5 & 1; + $7 = $6&255; + $8 = (($r) + ($i$08)|0); + HEAP8[$8>>0] = $7; + $9 = (($i$08) + 1)|0; + $exitcond10 = ($9|0)==(256); + if ($exitcond10) { + $i$15 = 0; + break; + } else { + $i$08 = $9; + } + } + while(1) { + $10 = (($r) + ($i$15)|0); + $11 = HEAP8[$10>>0]|0; + $12 = ($11<<24>>24)==(0); + L5: do { + if (!($12)) { + $b$03 = 1; + while(1) { + $13 = (($b$03) + ($i$15))|0; + $14 = ($13|0)<(256); + if (!($14)) { + break L5; + } + $15 = (($r) + ($13)|0); + $16 = HEAP8[$15>>0]|0; + $17 = ($16<<24>>24)==(0); + L9: do { + if (!($17)) { + $18 = HEAP8[$10>>0]|0; + $19 = $18 << 24 >> 24; + $20 = $16 << 24 >> 24; + $21 = $20 << $b$03; + $22 = (($19) + ($21))|0; + $23 = ($22|0)<(16); + if ($23) { + $24 = $22&255; + HEAP8[$10>>0] = $24; + HEAP8[$15>>0] = 0; + break; + } + $25 = (($19) - ($21))|0; + $26 = ($25|0)>(-16); + if (!($26)) { + break L5; + } + $27 = $25&255; + HEAP8[$10>>0] = $27; + $28 = ($13|0)<(256); + if ($28) { + $k$01 = $13; + while(1) { + $29 = (($r) + ($k$01)|0); + $30 = HEAP8[$29>>0]|0; + $31 = ($30<<24>>24)==(0); + if ($31) { + break; + } + HEAP8[$29>>0] = 0; + $32 = (($k$01) + 1)|0; + $33 = ($32|0)<(256); + if ($33) { + $k$01 = $32; + } else { + break L9; + } + } + HEAP8[$29>>0] = 1; + } + } + } while(0); + $34 = (($b$03) + 1)|0; + $35 = ($34|0)<(7); + if ($35) { + $b$03 = $34; + } else { + break; + } + } + } + } while(0); + $36 = (($i$15) + 1)|0; + $exitcond = ($36|0)==(256); + if ($exitcond) { + break; + } else { + $i$15 = $36; + } + } + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_frombytes_negate_vartime($h,$s) { + $h = $h|0; + $s = $s|0; + var $$0 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $check = 0, $u = 0, $v = 0, $v3 = 0, $vxx = 0, label = 0; + var sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 208|0; + $u = sp + 160|0; + $v = sp + 120|0; + $v3 = sp + 80|0; + $vxx = sp + 40|0; + $check = sp; + $0 = (($h) + 40|0); + _crypto_sign_ed25519_ref10_fe_frombytes($0,$s); + $1 = (($h) + 80|0); + _crypto_sign_ed25519_ref10_fe_1($1); + _crypto_sign_ed25519_ref10_fe_sq($u,$0); + _crypto_sign_ed25519_ref10_fe_mul($v,$u,1000); + _crypto_sign_ed25519_ref10_fe_sub($u,$u,$1); + _crypto_sign_ed25519_ref10_fe_add($v,$v,$1); + _crypto_sign_ed25519_ref10_fe_sq($v3,$v); + _crypto_sign_ed25519_ref10_fe_mul($v3,$v3,$v); + _crypto_sign_ed25519_ref10_fe_sq($h,$v3); + _crypto_sign_ed25519_ref10_fe_mul($h,$h,$v); + _crypto_sign_ed25519_ref10_fe_mul($h,$h,$u); + _crypto_sign_ed25519_ref10_fe_pow22523($h,$h); + _crypto_sign_ed25519_ref10_fe_mul($h,$h,$v3); + _crypto_sign_ed25519_ref10_fe_mul($h,$h,$u); + _crypto_sign_ed25519_ref10_fe_sq($vxx,$h); + _crypto_sign_ed25519_ref10_fe_mul($vxx,$vxx,$v); + _crypto_sign_ed25519_ref10_fe_sub($check,$vxx,$u); + $2 = (_crypto_sign_ed25519_ref10_fe_isnonzero($check)|0); + $3 = ($2|0)==(0); + do { + if (!($3)) { + _crypto_sign_ed25519_ref10_fe_add($check,$vxx,$u); + $4 = (_crypto_sign_ed25519_ref10_fe_isnonzero($check)|0); + $5 = ($4|0)==(0); + if ($5) { + _crypto_sign_ed25519_ref10_fe_mul($h,$h,1040); + break; + } else { + $$0 = -1; + STACKTOP = sp;return ($$0|0); + } + } + } while(0); + $6 = (_crypto_sign_ed25519_ref10_fe_isnegative($h)|0); + $7 = (($s) + 31|0); + $8 = HEAP8[$7>>0]|0; + $9 = $8&255; + $10 = $9 >>> 7; + $11 = ($6|0)==($10|0); + if ($11) { + _crypto_sign_ed25519_ref10_fe_neg($h,$h); + } + $12 = (($h) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($12,$h,$0); + $$0 = 0; + STACKTOP = sp;return ($$0|0); +} +function _crypto_sign_ed25519_ref10_ge_madd($r,$p,$q) { + $r = $r|0; + $p = $p|0; + $q = $q|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $t0 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 48|0; + $t0 = sp; + $0 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_add($r,$0,$p); + $1 = (($r) + 40|0); + _crypto_sign_ed25519_ref10_fe_sub($1,$0,$p); + $2 = (($r) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($2,$r,$q); + $3 = (($q) + 40|0); + _crypto_sign_ed25519_ref10_fe_mul($1,$1,$3); + $4 = (($r) + 120|0); + $5 = (($q) + 80|0); + $6 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$5,$6); + $7 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_add($t0,$7,$7); + _crypto_sign_ed25519_ref10_fe_sub($r,$2,$1); + _crypto_sign_ed25519_ref10_fe_add($1,$2,$1); + _crypto_sign_ed25519_ref10_fe_add($2,$t0,$4); + _crypto_sign_ed25519_ref10_fe_sub($4,$t0,$4); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_msub($r,$p,$q) { + $r = $r|0; + $p = $p|0; + $q = $q|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $t0 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 48|0; + $t0 = sp; + $0 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_add($r,$0,$p); + $1 = (($r) + 40|0); + _crypto_sign_ed25519_ref10_fe_sub($1,$0,$p); + $2 = (($r) + 80|0); + $3 = (($q) + 40|0); + _crypto_sign_ed25519_ref10_fe_mul($2,$r,$3); + _crypto_sign_ed25519_ref10_fe_mul($1,$1,$q); + $4 = (($r) + 120|0); + $5 = (($q) + 80|0); + $6 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$5,$6); + $7 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_add($t0,$7,$7); + _crypto_sign_ed25519_ref10_fe_sub($r,$2,$1); + _crypto_sign_ed25519_ref10_fe_add($1,$2,$1); + _crypto_sign_ed25519_ref10_fe_sub($2,$t0,$4); + _crypto_sign_ed25519_ref10_fe_add($4,$t0,$4); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p1p1_to_p2($r,$p) { + $r = $r|0; + $p = $p|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($r,$p,$0); + $1 = (($r) + 40|0); + $2 = (($p) + 40|0); + $3 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($1,$2,$3); + $4 = (($r) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$3,$0); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($r,$p) { + $r = $r|0; + $p = $p|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($r,$p,$0); + $1 = (($r) + 40|0); + $2 = (($p) + 40|0); + $3 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($1,$2,$3); + $4 = (($r) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$3,$0); + $5 = (($r) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($5,$p,$2); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p2_0($h) { + $h = $h|0; + var $0 = 0, $1 = 0, label = 0, sp = 0; + sp = STACKTOP; + _crypto_sign_ed25519_ref10_fe_0($h); + $0 = (($h) + 40|0); + _crypto_sign_ed25519_ref10_fe_1($0); + $1 = (($h) + 80|0); + _crypto_sign_ed25519_ref10_fe_1($1); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p2_dbl($r,$p) { + $r = $r|0; + $p = $p|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $t0 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 48|0; + $t0 = sp; + _crypto_sign_ed25519_ref10_fe_sq($r,$p); + $0 = (($r) + 80|0); + $1 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_sq($0,$1); + $2 = (($r) + 120|0); + $3 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_sq2($2,$3); + $4 = (($r) + 40|0); + _crypto_sign_ed25519_ref10_fe_add($4,$p,$1); + _crypto_sign_ed25519_ref10_fe_sq($t0,$4); + _crypto_sign_ed25519_ref10_fe_add($4,$0,$r); + _crypto_sign_ed25519_ref10_fe_sub($0,$0,$r); + _crypto_sign_ed25519_ref10_fe_sub($r,$t0,$4); + _crypto_sign_ed25519_ref10_fe_sub($2,$2,$0); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p3_0($h) { + $h = $h|0; + var $0 = 0, $1 = 0, $2 = 0, label = 0, sp = 0; + sp = STACKTOP; + _crypto_sign_ed25519_ref10_fe_0($h); + $0 = (($h) + 40|0); + _crypto_sign_ed25519_ref10_fe_1($0); + $1 = (($h) + 80|0); + _crypto_sign_ed25519_ref10_fe_1($1); + $2 = (($h) + 120|0); + _crypto_sign_ed25519_ref10_fe_0($2); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p3_dbl($r,$p) { + $r = $r|0; + $p = $p|0; + var $q = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 128|0; + $q = sp; + _crypto_sign_ed25519_ref10_ge_p3_to_p2($q,$p); + _crypto_sign_ed25519_ref10_ge_p2_dbl($r,$q); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p3_to_cached($r,$p) { + $r = $r|0; + $p = $p|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_add($r,$0,$p); + $1 = (($r) + 40|0); + _crypto_sign_ed25519_ref10_fe_sub($1,$0,$p); + $2 = (($r) + 80|0); + $3 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_copy($2,$3); + $4 = (($r) + 120|0); + $5 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$5,1080); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p3_to_p2($r,$p) { + $r = $r|0; + $p = $p|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, label = 0, sp = 0; + sp = STACKTOP; + _crypto_sign_ed25519_ref10_fe_copy($r,$p); + $0 = (($r) + 40|0); + $1 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_copy($0,$1); + $2 = (($r) + 80|0); + $3 = (($p) + 80|0); + _crypto_sign_ed25519_ref10_fe_copy($2,$3); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_p3_tobytes($s,$h) { + $s = $s|0; + $h = $h|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $recip = 0, $x = 0, $y = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 128|0; + $recip = sp + 80|0; + $x = sp + 40|0; + $y = sp; + $0 = (($h) + 80|0); + _crypto_sign_ed25519_ref10_fe_invert($recip,$0); + _crypto_sign_ed25519_ref10_fe_mul($x,$h,$recip); + $1 = (($h) + 40|0); + _crypto_sign_ed25519_ref10_fe_mul($y,$1,$recip); + _crypto_sign_ed25519_ref10_fe_tobytes($s,$y); + $2 = (_crypto_sign_ed25519_ref10_fe_isnegative($x)|0); + $3 = $2 << 7; + $4 = (($s) + 31|0); + $5 = HEAP8[$4>>0]|0; + $6 = $5&255; + $7 = $6 ^ $3; + $8 = $7&255; + HEAP8[$4>>0] = $8; + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_precomp_0($h) { + $h = $h|0; + var $0 = 0, $1 = 0, label = 0, sp = 0; + sp = STACKTOP; + _crypto_sign_ed25519_ref10_fe_1($h); + $0 = (($h) + 40|0); + _crypto_sign_ed25519_ref10_fe_1($0); + $1 = (($h) + 80|0); + _crypto_sign_ed25519_ref10_fe_0($1); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_scalarmult_base($h,$a) { + $h = $h|0; + $a = $a|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $carry$04 = 0, $e = 0, $exitcond = 0, $exitcond7 = 0; + var $i$06 = 0, $i$15 = 0, $i$23 = 0, $i$32 = 0, $r = 0, $s = 0, $sext = 0, $sext1 = 0, $t = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 464|0; + $e = sp + 400|0; + $r = sp + 240|0; + $s = sp + 120|0; + $t = sp; + $i$06 = 0; + while(1) { + $0 = (($a) + ($i$06)|0); + $1 = HEAP8[$0>>0]|0; + $2 = $1&255; + $3 = $2 & 15; + $4 = $3&255; + $5 = $i$06 << 1; + $6 = (($e) + ($5)|0); + HEAP8[$6>>0] = $4; + $7 = HEAP8[$0>>0]|0; + $8 = ($7&255) >>> 4; + $9 = $5 | 1; + $10 = (($e) + ($9)|0); + HEAP8[$10>>0] = $8; + $11 = (($i$06) + 1)|0; + $exitcond7 = ($11|0)==(32); + if ($exitcond7) { + $carry$04 = 0;$i$15 = 0; + break; + } else { + $i$06 = $11; + } + } + while(1) { + $12 = (($e) + ($i$15)|0); + $13 = HEAP8[$12>>0]|0; + $14 = $13&255; + $15 = (($14) + ($carry$04))|0; + $sext = $15 << 24; + $sext1 = (($sext) + 134217728)|0; + $16 = $sext1 >> 28; + $17 = $16 << 4; + $18 = (($15) - ($17))|0; + $19 = $18&255; + HEAP8[$12>>0] = $19; + $20 = (($i$15) + 1)|0; + $exitcond = ($20|0)==(63); + if ($exitcond) { + break; + } else { + $carry$04 = $16;$i$15 = $20; + } + } + $21 = (($e) + 63|0); + $22 = HEAP8[$21>>0]|0; + $23 = $22&255; + $24 = (($23) + ($16))|0; + $25 = $24&255; + HEAP8[$21>>0] = $25; + _crypto_sign_ed25519_ref10_ge_p3_0($h); + $i$23 = 1; + while(1) { + $26 = (($i$23|0) / 2)&-1; + $27 = (($e) + ($i$23)|0); + $28 = HEAP8[$27>>0]|0; + _select($t,$26,$28); + _crypto_sign_ed25519_ref10_ge_madd($r,$h,$t); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($h,$r); + $29 = (($i$23) + 2)|0; + $30 = ($29|0)<(64); + if ($30) { + $i$23 = $29; + } else { + break; + } + } + _crypto_sign_ed25519_ref10_ge_p3_dbl($r,$h); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p2($s,$r); + _crypto_sign_ed25519_ref10_ge_p2_dbl($r,$s); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p2($s,$r); + _crypto_sign_ed25519_ref10_ge_p2_dbl($r,$s); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p2($s,$r); + _crypto_sign_ed25519_ref10_ge_p2_dbl($r,$s); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($h,$r); + $i$32 = 0; + while(1) { + $31 = (($i$32|0) / 2)&-1; + $32 = (($e) + ($i$32)|0); + $33 = HEAP8[$32>>0]|0; + _select($t,$31,$33); + _crypto_sign_ed25519_ref10_ge_madd($r,$h,$t); + _crypto_sign_ed25519_ref10_ge_p1p1_to_p3($h,$r); + $34 = (($i$32) + 2)|0; + $35 = ($34|0)<(64); + if ($35) { + $i$32 = $34; + } else { + break; + } + } + STACKTOP = sp;return; +} +function _select($t,$pos,$b) { + $t = $t|0; + $pos = $pos|0; + $b = $b|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $minust = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 128|0; + $minust = sp; + $0 = (_negative($b)|0); + $1 = $b << 24 >> 24; + $2 = $0&255; + $3 = (0 - ($2))|0; + $4 = $1 & $3; + $5 = $4 << 1; + $6 = (($1) - ($5))|0; + $7 = $6&255; + _crypto_sign_ed25519_ref10_ge_precomp_0($t); + $8 = (1120 + (($pos*960)|0)|0); + $9 = (_equal($7,1)|0); + _cmov($t,$8,$9); + $10 = ((1120 + (($pos*960)|0)|0) + 120|0); + $11 = (_equal($7,2)|0); + _cmov($t,$10,$11); + $12 = ((1120 + (($pos*960)|0)|0) + 240|0); + $13 = (_equal($7,3)|0); + _cmov($t,$12,$13); + $14 = ((1120 + (($pos*960)|0)|0) + 360|0); + $15 = (_equal($7,4)|0); + _cmov($t,$14,$15); + $16 = ((1120 + (($pos*960)|0)|0) + 480|0); + $17 = (_equal($7,5)|0); + _cmov($t,$16,$17); + $18 = ((1120 + (($pos*960)|0)|0) + 600|0); + $19 = (_equal($7,6)|0); + _cmov($t,$18,$19); + $20 = ((1120 + (($pos*960)|0)|0) + 720|0); + $21 = (_equal($7,7)|0); + _cmov($t,$20,$21); + $22 = ((1120 + (($pos*960)|0)|0) + 840|0); + $23 = (_equal($7,8)|0); + _cmov($t,$22,$23); + $24 = (($t) + 40|0); + _crypto_sign_ed25519_ref10_fe_copy($minust,$24); + $25 = (($minust) + 40|0); + _crypto_sign_ed25519_ref10_fe_copy($25,$t); + $26 = (($minust) + 80|0); + $27 = (($t) + 80|0); + _crypto_sign_ed25519_ref10_fe_neg($26,$27); + _cmov($t,$minust,$0); + STACKTOP = sp;return; +} +function _negative($b) { + $b = $b|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $b << 24 >> 24; + $1 = ($0|0)<(0); + $2 = $1 << 31 >> 31; + $3 = (_bitshift64Lshr(($0|0),($2|0),63)|0); + $4 = tempRet0; + $5 = $3&255; + STACKTOP = sp;return ($5|0); +} +function _equal($b,$c) { + $b = $b|0; + $c = $c|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $c ^ $b; + $1 = $0&255; + $2 = (($1) + -1)|0; + $3 = $2 >>> 31; + $4 = $3&255; + STACKTOP = sp;return ($4|0); +} +function _cmov($t,$u,$b) { + $t = $t|0; + $u = $u|0; + $b = $b|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = $b&255; + _crypto_sign_ed25519_ref10_fe_cmov($t,$u,$0); + $1 = (($t) + 40|0); + $2 = (($u) + 40|0); + _crypto_sign_ed25519_ref10_fe_cmov($1,$2,$0); + $3 = (($t) + 80|0); + $4 = (($u) + 80|0); + _crypto_sign_ed25519_ref10_fe_cmov($3,$4,$0); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_sub($r,$p,$q) { + $r = $r|0; + $p = $p|0; + $q = $q|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $t0 = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 48|0; + $t0 = sp; + $0 = (($p) + 40|0); + _crypto_sign_ed25519_ref10_fe_add($r,$0,$p); + $1 = (($r) + 40|0); + _crypto_sign_ed25519_ref10_fe_sub($1,$0,$p); + $2 = (($r) + 80|0); + $3 = (($q) + 40|0); + _crypto_sign_ed25519_ref10_fe_mul($2,$r,$3); + _crypto_sign_ed25519_ref10_fe_mul($1,$1,$q); + $4 = (($r) + 120|0); + $5 = (($q) + 120|0); + $6 = (($p) + 120|0); + _crypto_sign_ed25519_ref10_fe_mul($4,$5,$6); + $7 = (($p) + 80|0); + $8 = (($q) + 80|0); + _crypto_sign_ed25519_ref10_fe_mul($r,$7,$8); + _crypto_sign_ed25519_ref10_fe_add($t0,$r,$r); + _crypto_sign_ed25519_ref10_fe_sub($r,$2,$1); + _crypto_sign_ed25519_ref10_fe_add($1,$2,$1); + _crypto_sign_ed25519_ref10_fe_sub($2,$t0,$4); + _crypto_sign_ed25519_ref10_fe_add($4,$t0,$4); + STACKTOP = sp;return; +} +function _crypto_sign_ed25519_ref10_ge_tobytes($s,$h) { + $s = $s|0; + $h = $h|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $recip = 0, $x = 0, $y = 0, label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 128|0; + $recip = sp + 80|0; + $x = sp + 40|0; + $y = sp; + $0 = (($h) + 80|0); + _crypto_sign_ed25519_ref10_fe_invert($recip,$0); + _crypto_sign_ed25519_ref10_fe_mul($x,$h,$recip); + $1 = (($h) + 40|0); + _crypto_sign_ed25519_ref10_fe_mul($y,$1,$recip); + _crypto_sign_ed25519_ref10_fe_tobytes($s,$y); + $2 = (_crypto_sign_ed25519_ref10_fe_isnegative($x)|0); + $3 = $2 << 7; + $4 = (($s) + 31|0); + $5 = HEAP8[$4>>0]|0; + $6 = $5&255; + $7 = $6 ^ $3; + $8 = $7&255; + HEAP8[$4>>0] = $8; + STACKTOP = sp;return; +} +function _crypto_sign_edwards25519sha512batch_ref10_open($m,$mlen,$sm,$0,$1,$pk) { + $m = $m|0; + $mlen = $mlen|0; + $sm = $sm|0; + $0 = $0|0; + $1 = $1|0; + $pk = $pk|0; + var $$0 = 0, $$sum = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $A = 0, $R = 0, $h = 0, $pkcopy1 = 0, $rcheck = 0, $rcopy = 0, $scopy = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 480|0; + $pkcopy1 = sp + 440|0; + $rcopy = sp + 408|0; + $scopy = sp + 376|0; + $h = sp + 312|0; + $rcheck = sp + 280|0; + $A = sp + 120|0; + $R = sp; + $2 = ($1>>>0)<(0); + $3 = ($0>>>0)<(64); + $4 = ($1|0)==(0); + $5 = $4 & $3; + $6 = $2 | $5; + if (!($6)) { + $7 = (($sm) + 63|0); + $8 = HEAP8[$7>>0]|0; + $9 = ($8&255)>(31); + if (!($9)) { + $10 = (_crypto_sign_ed25519_ref10_ge_frombytes_negate_vartime($A,$pk)|0); + $11 = ($10|0)==(0); + if ($11) { + dest=$pkcopy1+0|0; src=$pk+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + dest=$rcopy+0|0; src=$sm+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + $12 = (($sm) + 32|0); + dest=$scopy+0|0; src=$12+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + _memmove(($m|0),($sm|0),($0|0))|0; + $13 = (($m) + 32|0); + dest=$13+0|0; src=$pkcopy1+0|0; stop=dest+32|0; do { HEAP8[dest>>0]=HEAP8[src>>0]|0; dest=dest+1|0; src=src+1|0; } while ((dest|0) < (stop|0)); + (_crypto_hash_sha512_ref($h,$m,$0,$1)|0); + _crypto_sign_ed25519_ref10_sc_reduce($h); + _crypto_sign_ed25519_ref10_ge_double_scalarmult_vartime($R,$h,$A,$scopy); + _crypto_sign_ed25519_ref10_ge_tobytes($rcheck,$R); + $14 = (_crypto_verify_32_ref($rcheck,$rcopy)|0); + $15 = ($14|0)==(0); + if ($15) { + $16 = (($m) + 64|0); + $17 = (_i64Add(($0|0),($1|0),-64,-1)|0); + $18 = tempRet0; + _memmove(($m|0),($16|0),($17|0))|0; + $$sum = (($0) + -64)|0; + $19 = (($m) + ($$sum)|0); + dest=$19+0|0; stop=dest+64|0; do { HEAP8[dest>>0]=0|0; dest=dest+1|0; } while ((dest|0) < (stop|0)); + $20 = $mlen; + $21 = $20; + HEAP32[$21>>2] = $17; + $22 = (($20) + 4)|0; + $23 = $22; + HEAP32[$23>>2] = $18; + $$0 = 0; + STACKTOP = sp;return ($$0|0); + } + } + } + } + $24 = $mlen; + $25 = $24; + HEAP32[$25>>2] = -1; + $26 = (($24) + 4)|0; + $27 = $26; + HEAP32[$27>>2] = -1; + _memset(($m|0),0,($0|0))|0; + $$0 = -1; + STACKTOP = sp;return ($$0|0); +} +function _crypto_sign_ed25519_ref10_sc_muladd($s,$a,$b,$c) { + $s = $s|0; + $a = $a|0; + $b = $b|0; + $c = $c|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $1000 = 0, $1001 = 0, $1002 = 0, $1003 = 0, $1004 = 0, $1005 = 0, $1006 = 0, $1007 = 0, $1008 = 0, $1009 = 0, $101 = 0, $1010 = 0, $1011 = 0, $1012 = 0, $1013 = 0, $1014 = 0; + var $1015 = 0, $1016 = 0, $1017 = 0, $1018 = 0, $1019 = 0, $102 = 0, $1020 = 0, $1021 = 0, $1022 = 0, $1023 = 0, $1024 = 0, $1025 = 0, $1026 = 0, $1027 = 0, $1028 = 0, $1029 = 0, $103 = 0, $1030 = 0, $1031 = 0, $1032 = 0; + var $1033 = 0, $1034 = 0, $1035 = 0, $1036 = 0, $1037 = 0, $1038 = 0, $1039 = 0, $104 = 0, $1040 = 0, $1041 = 0, $1042 = 0, $1043 = 0, $1044 = 0, $1045 = 0, $1046 = 0, $1047 = 0, $1048 = 0, $1049 = 0, $105 = 0, $1050 = 0; + var $1051 = 0, $1052 = 0, $1053 = 0, $1054 = 0, $1055 = 0, $1056 = 0, $1057 = 0, $1058 = 0, $1059 = 0, $106 = 0, $1060 = 0, $1061 = 0, $1062 = 0, $1063 = 0, $1064 = 0, $1065 = 0, $1066 = 0, $1067 = 0, $1068 = 0, $1069 = 0; + var $107 = 0, $1070 = 0, $1071 = 0, $1072 = 0, $1073 = 0, $1074 = 0, $1075 = 0, $1076 = 0, $1077 = 0, $1078 = 0, $1079 = 0, $108 = 0, $1080 = 0, $1081 = 0, $1082 = 0, $1083 = 0, $1084 = 0, $1085 = 0, $1086 = 0, $1087 = 0; + var $1088 = 0, $1089 = 0, $109 = 0, $1090 = 0, $1091 = 0, $1092 = 0, $1093 = 0, $1094 = 0, $1095 = 0, $1096 = 0, $1097 = 0, $1098 = 0, $1099 = 0, $11 = 0, $110 = 0, $1100 = 0, $1101 = 0, $1102 = 0, $1103 = 0, $1104 = 0; + var $1105 = 0, $1106 = 0, $1107 = 0, $1108 = 0, $1109 = 0, $111 = 0, $1110 = 0, $1111 = 0, $1112 = 0, $1113 = 0, $1114 = 0, $1115 = 0, $1116 = 0, $1117 = 0, $1118 = 0, $1119 = 0, $112 = 0, $1120 = 0, $1121 = 0, $1122 = 0; + var $1123 = 0, $1124 = 0, $1125 = 0, $1126 = 0, $1127 = 0, $1128 = 0, $1129 = 0, $113 = 0, $1130 = 0, $1131 = 0, $1132 = 0, $1133 = 0, $1134 = 0, $1135 = 0, $1136 = 0, $1137 = 0, $1138 = 0, $1139 = 0, $114 = 0, $1140 = 0; + var $1141 = 0, $1142 = 0, $1143 = 0, $1144 = 0, $1145 = 0, $1146 = 0, $1147 = 0, $1148 = 0, $1149 = 0, $115 = 0, $1150 = 0, $1151 = 0, $1152 = 0, $1153 = 0, $1154 = 0, $1155 = 0, $1156 = 0, $1157 = 0, $1158 = 0, $1159 = 0; + var $116 = 0, $1160 = 0, $1161 = 0, $1162 = 0, $1163 = 0, $1164 = 0, $1165 = 0, $1166 = 0, $1167 = 0, $1168 = 0, $1169 = 0, $117 = 0, $1170 = 0, $1171 = 0, $1172 = 0, $1173 = 0, $1174 = 0, $1175 = 0, $1176 = 0, $1177 = 0; + var $1178 = 0, $1179 = 0, $118 = 0, $1180 = 0, $1181 = 0, $1182 = 0, $1183 = 0, $1184 = 0, $1185 = 0, $1186 = 0, $1187 = 0, $1188 = 0, $1189 = 0, $119 = 0, $1190 = 0, $1191 = 0, $1192 = 0, $1193 = 0, $1194 = 0, $1195 = 0; + var $1196 = 0, $1197 = 0, $1198 = 0, $1199 = 0, $12 = 0, $120 = 0, $1200 = 0, $1201 = 0, $1202 = 0, $1203 = 0, $1204 = 0, $1205 = 0, $1206 = 0, $1207 = 0, $1208 = 0, $1209 = 0, $121 = 0, $1210 = 0, $1211 = 0, $1212 = 0; + var $1213 = 0, $1214 = 0, $1215 = 0, $1216 = 0, $1217 = 0, $1218 = 0, $1219 = 0, $122 = 0, $1220 = 0, $1221 = 0, $1222 = 0, $1223 = 0, $1224 = 0, $1225 = 0, $1226 = 0, $1227 = 0, $1228 = 0, $1229 = 0, $123 = 0, $1230 = 0; + var $1231 = 0, $1232 = 0, $1233 = 0, $1234 = 0, $1235 = 0, $1236 = 0, $1237 = 0, $1238 = 0, $1239 = 0, $124 = 0, $1240 = 0, $1241 = 0, $1242 = 0, $1243 = 0, $1244 = 0, $1245 = 0, $1246 = 0, $1247 = 0, $1248 = 0, $1249 = 0; + var $125 = 0, $1250 = 0, $1251 = 0, $1252 = 0, $1253 = 0, $1254 = 0, $1255 = 0, $1256 = 0, $1257 = 0, $1258 = 0, $1259 = 0, $126 = 0, $1260 = 0, $1261 = 0, $1262 = 0, $1263 = 0, $1264 = 0, $1265 = 0, $1266 = 0, $1267 = 0; + var $1268 = 0, $1269 = 0, $127 = 0, $1270 = 0, $1271 = 0, $1272 = 0, $1273 = 0, $1274 = 0, $1275 = 0, $1276 = 0, $1277 = 0, $1278 = 0, $1279 = 0, $128 = 0, $1280 = 0, $1281 = 0, $1282 = 0, $1283 = 0, $1284 = 0, $1285 = 0; + var $1286 = 0, $1287 = 0, $1288 = 0, $1289 = 0, $129 = 0, $1290 = 0, $1291 = 0, $1292 = 0, $1293 = 0, $1294 = 0, $1295 = 0, $1296 = 0, $1297 = 0, $1298 = 0, $1299 = 0, $13 = 0, $130 = 0, $1300 = 0, $1301 = 0, $1302 = 0; + var $1303 = 0, $1304 = 0, $1305 = 0, $1306 = 0, $1307 = 0, $1308 = 0, $1309 = 0, $131 = 0, $1310 = 0, $1311 = 0, $1312 = 0, $1313 = 0, $1314 = 0, $1315 = 0, $1316 = 0, $1317 = 0, $1318 = 0, $1319 = 0, $132 = 0, $1320 = 0; + var $1321 = 0, $1322 = 0, $1323 = 0, $1324 = 0, $1325 = 0, $1326 = 0, $1327 = 0, $1328 = 0, $1329 = 0, $133 = 0, $1330 = 0, $1331 = 0, $1332 = 0, $1333 = 0, $1334 = 0, $1335 = 0, $1336 = 0, $1337 = 0, $1338 = 0, $1339 = 0; + var $134 = 0, $1340 = 0, $1341 = 0, $1342 = 0, $1343 = 0, $1344 = 0, $1345 = 0, $1346 = 0, $1347 = 0, $1348 = 0, $1349 = 0, $135 = 0, $1350 = 0, $1351 = 0, $1352 = 0, $1353 = 0, $1354 = 0, $1355 = 0, $1356 = 0, $1357 = 0; + var $1358 = 0, $1359 = 0, $136 = 0, $1360 = 0, $1361 = 0, $1362 = 0, $1363 = 0, $1364 = 0, $1365 = 0, $1366 = 0, $1367 = 0, $1368 = 0, $1369 = 0, $137 = 0, $1370 = 0, $1371 = 0, $1372 = 0, $1373 = 0, $1374 = 0, $1375 = 0; + var $1376 = 0, $1377 = 0, $1378 = 0, $1379 = 0, $138 = 0, $1380 = 0, $1381 = 0, $1382 = 0, $1383 = 0, $1384 = 0, $1385 = 0, $1386 = 0, $1387 = 0, $1388 = 0, $1389 = 0, $139 = 0, $1390 = 0, $1391 = 0, $1392 = 0, $1393 = 0; + var $1394 = 0, $1395 = 0, $1396 = 0, $1397 = 0, $1398 = 0, $1399 = 0, $14 = 0, $140 = 0, $1400 = 0, $1401 = 0, $1402 = 0, $1403 = 0, $1404 = 0, $1405 = 0, $1406 = 0, $1407 = 0, $1408 = 0, $1409 = 0, $141 = 0, $1410 = 0; + var $1411 = 0, $1412 = 0, $1413 = 0, $1414 = 0, $1415 = 0, $1416 = 0, $1417 = 0, $1418 = 0, $1419 = 0, $142 = 0, $1420 = 0, $1421 = 0, $1422 = 0, $1423 = 0, $1424 = 0, $1425 = 0, $1426 = 0, $1427 = 0, $1428 = 0, $1429 = 0; + var $143 = 0, $1430 = 0, $1431 = 0, $1432 = 0, $1433 = 0, $1434 = 0, $1435 = 0, $1436 = 0, $1437 = 0, $1438 = 0, $1439 = 0, $144 = 0, $1440 = 0, $1441 = 0, $1442 = 0, $1443 = 0, $1444 = 0, $1445 = 0, $1446 = 0, $1447 = 0; + var $1448 = 0, $1449 = 0, $145 = 0, $1450 = 0, $1451 = 0, $1452 = 0, $1453 = 0, $1454 = 0, $1455 = 0, $1456 = 0, $1457 = 0, $1458 = 0, $1459 = 0, $146 = 0, $1460 = 0, $1461 = 0, $1462 = 0, $1463 = 0, $1464 = 0, $1465 = 0; + var $1466 = 0, $1467 = 0, $1468 = 0, $1469 = 0, $147 = 0, $1470 = 0, $1471 = 0, $1472 = 0, $1473 = 0, $1474 = 0, $1475 = 0, $1476 = 0, $1477 = 0, $1478 = 0, $1479 = 0, $148 = 0, $1480 = 0, $1481 = 0, $1482 = 0, $1483 = 0; + var $1484 = 0, $1485 = 0, $1486 = 0, $1487 = 0, $1488 = 0, $1489 = 0, $149 = 0, $1490 = 0, $1491 = 0, $1492 = 0, $1493 = 0, $1494 = 0, $1495 = 0, $1496 = 0, $1497 = 0, $1498 = 0, $1499 = 0, $15 = 0, $150 = 0, $1500 = 0; + var $1501 = 0, $1502 = 0, $1503 = 0, $1504 = 0, $1505 = 0, $1506 = 0, $1507 = 0, $1508 = 0, $1509 = 0, $151 = 0, $1510 = 0, $1511 = 0, $1512 = 0, $1513 = 0, $1514 = 0, $1515 = 0, $1516 = 0, $1517 = 0, $1518 = 0, $1519 = 0; + var $152 = 0, $1520 = 0, $1521 = 0, $1522 = 0, $1523 = 0, $1524 = 0, $1525 = 0, $1526 = 0, $1527 = 0, $1528 = 0, $1529 = 0, $153 = 0, $1530 = 0, $1531 = 0, $1532 = 0, $1533 = 0, $1534 = 0, $1535 = 0, $1536 = 0, $1537 = 0; + var $1538 = 0, $1539 = 0, $154 = 0, $1540 = 0, $1541 = 0, $1542 = 0, $1543 = 0, $1544 = 0, $1545 = 0, $1546 = 0, $1547 = 0, $1548 = 0, $1549 = 0, $155 = 0, $1550 = 0, $1551 = 0, $1552 = 0, $1553 = 0, $1554 = 0, $1555 = 0; + var $1556 = 0, $1557 = 0, $1558 = 0, $1559 = 0, $156 = 0, $1560 = 0, $1561 = 0, $1562 = 0, $1563 = 0, $1564 = 0, $1565 = 0, $1566 = 0, $1567 = 0, $1568 = 0, $1569 = 0, $157 = 0, $1570 = 0, $1571 = 0, $1572 = 0, $1573 = 0; + var $1574 = 0, $1575 = 0, $1576 = 0, $1577 = 0, $1578 = 0, $1579 = 0, $158 = 0, $1580 = 0, $1581 = 0, $1582 = 0, $1583 = 0, $1584 = 0, $1585 = 0, $1586 = 0, $1587 = 0, $1588 = 0, $1589 = 0, $159 = 0, $1590 = 0, $1591 = 0; + var $1592 = 0, $1593 = 0, $1594 = 0, $1595 = 0, $1596 = 0, $1597 = 0, $1598 = 0, $1599 = 0, $16 = 0, $160 = 0, $1600 = 0, $1601 = 0, $1602 = 0, $1603 = 0, $1604 = 0, $1605 = 0, $1606 = 0, $1607 = 0, $1608 = 0, $1609 = 0; + var $161 = 0, $1610 = 0, $1611 = 0, $1612 = 0, $1613 = 0, $1614 = 0, $1615 = 0, $1616 = 0, $1617 = 0, $1618 = 0, $1619 = 0, $162 = 0, $1620 = 0, $1621 = 0, $1622 = 0, $1623 = 0, $1624 = 0, $1625 = 0, $1626 = 0, $1627 = 0; + var $1628 = 0, $1629 = 0, $163 = 0, $1630 = 0, $1631 = 0, $1632 = 0, $1633 = 0, $1634 = 0, $1635 = 0, $1636 = 0, $1637 = 0, $1638 = 0, $1639 = 0, $164 = 0, $1640 = 0, $1641 = 0, $1642 = 0, $1643 = 0, $1644 = 0, $1645 = 0; + var $1646 = 0, $1647 = 0, $1648 = 0, $1649 = 0, $165 = 0, $1650 = 0, $1651 = 0, $1652 = 0, $1653 = 0, $1654 = 0, $1655 = 0, $1656 = 0, $1657 = 0, $1658 = 0, $1659 = 0, $166 = 0, $1660 = 0, $1661 = 0, $1662 = 0, $1663 = 0; + var $1664 = 0, $1665 = 0, $1666 = 0, $1667 = 0, $1668 = 0, $1669 = 0, $167 = 0, $1670 = 0, $1671 = 0, $1672 = 0, $1673 = 0, $1674 = 0, $1675 = 0, $1676 = 0, $1677 = 0, $1678 = 0, $1679 = 0, $168 = 0, $1680 = 0, $1681 = 0; + var $1682 = 0, $1683 = 0, $1684 = 0, $1685 = 0, $1686 = 0, $1687 = 0, $1688 = 0, $1689 = 0, $169 = 0, $1690 = 0, $1691 = 0, $1692 = 0, $1693 = 0, $1694 = 0, $1695 = 0, $1696 = 0, $1697 = 0, $1698 = 0, $1699 = 0, $17 = 0; + var $170 = 0, $1700 = 0, $1701 = 0, $1702 = 0, $1703 = 0, $1704 = 0, $1705 = 0, $1706 = 0, $1707 = 0, $1708 = 0, $1709 = 0, $171 = 0, $1710 = 0, $1711 = 0, $1712 = 0, $1713 = 0, $1714 = 0, $1715 = 0, $1716 = 0, $1717 = 0; + var $1718 = 0, $1719 = 0, $172 = 0, $1720 = 0, $1721 = 0, $1722 = 0, $1723 = 0, $1724 = 0, $1725 = 0, $1726 = 0, $1727 = 0, $1728 = 0, $1729 = 0, $173 = 0, $1730 = 0, $1731 = 0, $1732 = 0, $1733 = 0, $1734 = 0, $1735 = 0; + var $1736 = 0, $1737 = 0, $1738 = 0, $1739 = 0, $174 = 0, $1740 = 0, $1741 = 0, $1742 = 0, $1743 = 0, $1744 = 0, $1745 = 0, $1746 = 0, $1747 = 0, $1748 = 0, $1749 = 0, $175 = 0, $1750 = 0, $1751 = 0, $1752 = 0, $1753 = 0; + var $1754 = 0, $1755 = 0, $1756 = 0, $1757 = 0, $1758 = 0, $1759 = 0, $176 = 0, $1760 = 0, $1761 = 0, $1762 = 0, $1763 = 0, $1764 = 0, $1765 = 0, $1766 = 0, $1767 = 0, $1768 = 0, $1769 = 0, $177 = 0, $1770 = 0, $1771 = 0; + var $1772 = 0, $1773 = 0, $1774 = 0, $1775 = 0, $1776 = 0, $1777 = 0, $1778 = 0, $1779 = 0, $178 = 0, $1780 = 0, $1781 = 0, $1782 = 0, $1783 = 0, $1784 = 0, $1785 = 0, $1786 = 0, $1787 = 0, $1788 = 0, $1789 = 0, $179 = 0; + var $1790 = 0, $1791 = 0, $1792 = 0, $1793 = 0, $1794 = 0, $1795 = 0, $1796 = 0, $1797 = 0, $1798 = 0, $1799 = 0, $18 = 0, $180 = 0, $1800 = 0, $1801 = 0, $1802 = 0, $1803 = 0, $1804 = 0, $1805 = 0, $1806 = 0, $1807 = 0; + var $1808 = 0, $1809 = 0, $181 = 0, $1810 = 0, $1811 = 0, $1812 = 0, $1813 = 0, $1814 = 0, $1815 = 0, $1816 = 0, $1817 = 0, $1818 = 0, $1819 = 0, $182 = 0, $1820 = 0, $1821 = 0, $1822 = 0, $1823 = 0, $1824 = 0, $1825 = 0; + var $1826 = 0, $1827 = 0, $1828 = 0, $1829 = 0, $183 = 0, $1830 = 0, $1831 = 0, $1832 = 0, $1833 = 0, $1834 = 0, $1835 = 0, $1836 = 0, $1837 = 0, $1838 = 0, $1839 = 0, $184 = 0, $1840 = 0, $1841 = 0, $1842 = 0, $1843 = 0; + var $1844 = 0, $1845 = 0, $1846 = 0, $1847 = 0, $1848 = 0, $1849 = 0, $185 = 0, $1850 = 0, $1851 = 0, $1852 = 0, $1853 = 0, $1854 = 0, $1855 = 0, $1856 = 0, $1857 = 0, $1858 = 0, $1859 = 0, $186 = 0, $1860 = 0, $1861 = 0; + var $1862 = 0, $1863 = 0, $1864 = 0, $1865 = 0, $1866 = 0, $1867 = 0, $1868 = 0, $1869 = 0, $187 = 0, $1870 = 0, $1871 = 0, $1872 = 0, $1873 = 0, $1874 = 0, $1875 = 0, $1876 = 0, $1877 = 0, $1878 = 0, $188 = 0, $189 = 0; + var $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0; + var $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0; + var $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0; + var $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0; + var $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0; + var $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0; + var $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0; + var $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0; + var $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0, $350 = 0; + var $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0; + var $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0; + var $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0, $404 = 0; + var $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0, $422 = 0; + var $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0, $440 = 0; + var $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0, $459 = 0; + var $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0, $477 = 0; + var $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0, $495 = 0; + var $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0, $512 = 0; + var $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0, $530 = 0; + var $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0, $549 = 0; + var $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0, $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0, $567 = 0; + var $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0, $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0, $585 = 0; + var $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0, $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0, $602 = 0; + var $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0, $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0, $620 = 0; + var $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0, $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0, $636 = 0, $637 = 0, $638 = 0, $639 = 0; + var $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0, $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0, $654 = 0, $655 = 0, $656 = 0, $657 = 0; + var $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0, $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0, $672 = 0, $673 = 0, $674 = 0, $675 = 0; + var $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0, $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0, $690 = 0, $691 = 0, $692 = 0, $693 = 0; + var $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0, $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0, $708 = 0, $709 = 0, $71 = 0, $710 = 0; + var $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0, $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0, $726 = 0, $727 = 0, $728 = 0, $729 = 0; + var $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0, $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0, $744 = 0, $745 = 0, $746 = 0, $747 = 0; + var $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0, $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0, $762 = 0, $763 = 0, $764 = 0, $765 = 0; + var $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0, $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0, $780 = 0, $781 = 0, $782 = 0, $783 = 0; + var $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0, $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0, $799 = 0, $8 = 0, $80 = 0, $800 = 0; + var $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0, $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0, $816 = 0, $817 = 0, $818 = 0, $819 = 0; + var $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0, $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0, $834 = 0, $835 = 0, $836 = 0, $837 = 0; + var $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0, $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0, $852 = 0, $853 = 0, $854 = 0, $855 = 0; + var $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0, $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0, $870 = 0, $871 = 0, $872 = 0, $873 = 0; + var $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0, $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0, $889 = 0, $89 = 0, $890 = 0, $891 = 0; + var $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0, $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0, $906 = 0, $907 = 0, $908 = 0, $909 = 0; + var $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0, $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0, $924 = 0, $925 = 0, $926 = 0, $927 = 0; + var $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0, $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0, $942 = 0, $943 = 0, $944 = 0, $945 = 0; + var $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $954 = 0, $955 = 0, $956 = 0, $957 = 0, $958 = 0, $959 = 0, $96 = 0, $960 = 0, $961 = 0, $962 = 0, $963 = 0; + var $964 = 0, $965 = 0, $966 = 0, $967 = 0, $968 = 0, $969 = 0, $97 = 0, $970 = 0, $971 = 0, $972 = 0, $973 = 0, $974 = 0, $975 = 0, $976 = 0, $977 = 0, $978 = 0, $979 = 0, $98 = 0, $980 = 0, $981 = 0; + var $982 = 0, $983 = 0, $984 = 0, $985 = 0, $986 = 0, $987 = 0, $988 = 0, $989 = 0, $99 = 0, $990 = 0, $991 = 0, $992 = 0, $993 = 0, $994 = 0, $995 = 0, $996 = 0, $997 = 0, $998 = 0, $999 = 0, label = 0; + var sp = 0; + sp = STACKTOP; + $0 = (_load_347($a)|0); + $1 = tempRet0; + $2 = $0 & 2097151; + $3 = (($a) + 2|0); + $4 = (_load_448($3)|0); + $5 = tempRet0; + $6 = (_bitshift64Lshr(($4|0),($5|0),5)|0); + $7 = tempRet0; + $8 = $6 & 2097151; + $9 = (($a) + 5|0); + $10 = (_load_347($9)|0); + $11 = tempRet0; + $12 = (_bitshift64Lshr(($10|0),($11|0),2)|0); + $13 = tempRet0; + $14 = $12 & 2097151; + $15 = (($a) + 7|0); + $16 = (_load_448($15)|0); + $17 = tempRet0; + $18 = (_bitshift64Lshr(($16|0),($17|0),7)|0); + $19 = tempRet0; + $20 = $18 & 2097151; + $21 = (($a) + 10|0); + $22 = (_load_448($21)|0); + $23 = tempRet0; + $24 = (_bitshift64Lshr(($22|0),($23|0),4)|0); + $25 = tempRet0; + $26 = $24 & 2097151; + $27 = (($a) + 13|0); + $28 = (_load_347($27)|0); + $29 = tempRet0; + $30 = (_bitshift64Lshr(($28|0),($29|0),1)|0); + $31 = tempRet0; + $32 = $30 & 2097151; + $33 = (($a) + 15|0); + $34 = (_load_448($33)|0); + $35 = tempRet0; + $36 = (_bitshift64Lshr(($34|0),($35|0),6)|0); + $37 = tempRet0; + $38 = $36 & 2097151; + $39 = (($a) + 18|0); + $40 = (_load_347($39)|0); + $41 = tempRet0; + $42 = (_bitshift64Lshr(($40|0),($41|0),3)|0); + $43 = tempRet0; + $44 = $42 & 2097151; + $45 = (($a) + 21|0); + $46 = (_load_347($45)|0); + $47 = tempRet0; + $48 = $46 & 2097151; + $49 = (($a) + 23|0); + $50 = (_load_448($49)|0); + $51 = tempRet0; + $52 = (_bitshift64Lshr(($50|0),($51|0),5)|0); + $53 = tempRet0; + $54 = $52 & 2097151; + $55 = (($a) + 26|0); + $56 = (_load_347($55)|0); + $57 = tempRet0; + $58 = (_bitshift64Lshr(($56|0),($57|0),2)|0); + $59 = tempRet0; + $60 = $58 & 2097151; + $61 = (($a) + 28|0); + $62 = (_load_448($61)|0); + $63 = tempRet0; + $64 = (_bitshift64Lshr(($62|0),($63|0),7)|0); + $65 = tempRet0; + $66 = (_load_347($b)|0); + $67 = tempRet0; + $68 = $66 & 2097151; + $69 = (($b) + 2|0); + $70 = (_load_448($69)|0); + $71 = tempRet0; + $72 = (_bitshift64Lshr(($70|0),($71|0),5)|0); + $73 = tempRet0; + $74 = $72 & 2097151; + $75 = (($b) + 5|0); + $76 = (_load_347($75)|0); + $77 = tempRet0; + $78 = (_bitshift64Lshr(($76|0),($77|0),2)|0); + $79 = tempRet0; + $80 = $78 & 2097151; + $81 = (($b) + 7|0); + $82 = (_load_448($81)|0); + $83 = tempRet0; + $84 = (_bitshift64Lshr(($82|0),($83|0),7)|0); + $85 = tempRet0; + $86 = $84 & 2097151; + $87 = (($b) + 10|0); + $88 = (_load_448($87)|0); + $89 = tempRet0; + $90 = (_bitshift64Lshr(($88|0),($89|0),4)|0); + $91 = tempRet0; + $92 = $90 & 2097151; + $93 = (($b) + 13|0); + $94 = (_load_347($93)|0); + $95 = tempRet0; + $96 = (_bitshift64Lshr(($94|0),($95|0),1)|0); + $97 = tempRet0; + $98 = $96 & 2097151; + $99 = (($b) + 15|0); + $100 = (_load_448($99)|0); + $101 = tempRet0; + $102 = (_bitshift64Lshr(($100|0),($101|0),6)|0); + $103 = tempRet0; + $104 = $102 & 2097151; + $105 = (($b) + 18|0); + $106 = (_load_347($105)|0); + $107 = tempRet0; + $108 = (_bitshift64Lshr(($106|0),($107|0),3)|0); + $109 = tempRet0; + $110 = $108 & 2097151; + $111 = (($b) + 21|0); + $112 = (_load_347($111)|0); + $113 = tempRet0; + $114 = $112 & 2097151; + $115 = (($b) + 23|0); + $116 = (_load_448($115)|0); + $117 = tempRet0; + $118 = (_bitshift64Lshr(($116|0),($117|0),5)|0); + $119 = tempRet0; + $120 = $118 & 2097151; + $121 = (($b) + 26|0); + $122 = (_load_347($121)|0); + $123 = tempRet0; + $124 = (_bitshift64Lshr(($122|0),($123|0),2)|0); + $125 = tempRet0; + $126 = $124 & 2097151; + $127 = (($b) + 28|0); + $128 = (_load_448($127)|0); + $129 = tempRet0; + $130 = (_bitshift64Lshr(($128|0),($129|0),7)|0); + $131 = tempRet0; + $132 = (_load_347($c)|0); + $133 = tempRet0; + $134 = $132 & 2097151; + $135 = (($c) + 2|0); + $136 = (_load_448($135)|0); + $137 = tempRet0; + $138 = (_bitshift64Lshr(($136|0),($137|0),5)|0); + $139 = tempRet0; + $140 = $138 & 2097151; + $141 = (($c) + 5|0); + $142 = (_load_347($141)|0); + $143 = tempRet0; + $144 = (_bitshift64Lshr(($142|0),($143|0),2)|0); + $145 = tempRet0; + $146 = $144 & 2097151; + $147 = (($c) + 7|0); + $148 = (_load_448($147)|0); + $149 = tempRet0; + $150 = (_bitshift64Lshr(($148|0),($149|0),7)|0); + $151 = tempRet0; + $152 = $150 & 2097151; + $153 = (($c) + 10|0); + $154 = (_load_448($153)|0); + $155 = tempRet0; + $156 = (_bitshift64Lshr(($154|0),($155|0),4)|0); + $157 = tempRet0; + $158 = $156 & 2097151; + $159 = (($c) + 13|0); + $160 = (_load_347($159)|0); + $161 = tempRet0; + $162 = (_bitshift64Lshr(($160|0),($161|0),1)|0); + $163 = tempRet0; + $164 = $162 & 2097151; + $165 = (($c) + 15|0); + $166 = (_load_448($165)|0); + $167 = tempRet0; + $168 = (_bitshift64Lshr(($166|0),($167|0),6)|0); + $169 = tempRet0; + $170 = $168 & 2097151; + $171 = (($c) + 18|0); + $172 = (_load_347($171)|0); + $173 = tempRet0; + $174 = (_bitshift64Lshr(($172|0),($173|0),3)|0); + $175 = tempRet0; + $176 = $174 & 2097151; + $177 = (($c) + 21|0); + $178 = (_load_347($177)|0); + $179 = tempRet0; + $180 = $178 & 2097151; + $181 = (($c) + 23|0); + $182 = (_load_448($181)|0); + $183 = tempRet0; + $184 = (_bitshift64Lshr(($182|0),($183|0),5)|0); + $185 = tempRet0; + $186 = $184 & 2097151; + $187 = (($c) + 26|0); + $188 = (_load_347($187)|0); + $189 = tempRet0; + $190 = (_bitshift64Lshr(($188|0),($189|0),2)|0); + $191 = tempRet0; + $192 = $190 & 2097151; + $193 = (($c) + 28|0); + $194 = (_load_448($193)|0); + $195 = tempRet0; + $196 = (_bitshift64Lshr(($194|0),($195|0),7)|0); + $197 = tempRet0; + $198 = (___muldi3(($68|0),0,($2|0),0)|0); + $199 = tempRet0; + $200 = (_i64Add(($134|0),0,($198|0),($199|0))|0); + $201 = tempRet0; + $202 = (___muldi3(($74|0),0,($2|0),0)|0); + $203 = tempRet0; + $204 = (___muldi3(($68|0),0,($8|0),0)|0); + $205 = tempRet0; + $206 = (___muldi3(($80|0),0,($2|0),0)|0); + $207 = tempRet0; + $208 = (___muldi3(($74|0),0,($8|0),0)|0); + $209 = tempRet0; + $210 = (___muldi3(($68|0),0,($14|0),0)|0); + $211 = tempRet0; + $212 = (_i64Add(($208|0),($209|0),($210|0),($211|0))|0); + $213 = tempRet0; + $214 = (_i64Add(($212|0),($213|0),($206|0),($207|0))|0); + $215 = tempRet0; + $216 = (_i64Add(($214|0),($215|0),($146|0),0)|0); + $217 = tempRet0; + $218 = (___muldi3(($86|0),0,($2|0),0)|0); + $219 = tempRet0; + $220 = (___muldi3(($80|0),0,($8|0),0)|0); + $221 = tempRet0; + $222 = (___muldi3(($74|0),0,($14|0),0)|0); + $223 = tempRet0; + $224 = (___muldi3(($68|0),0,($20|0),0)|0); + $225 = tempRet0; + $226 = (___muldi3(($92|0),0,($2|0),0)|0); + $227 = tempRet0; + $228 = (___muldi3(($86|0),0,($8|0),0)|0); + $229 = tempRet0; + $230 = (___muldi3(($80|0),0,($14|0),0)|0); + $231 = tempRet0; + $232 = (___muldi3(($74|0),0,($20|0),0)|0); + $233 = tempRet0; + $234 = (___muldi3(($68|0),0,($26|0),0)|0); + $235 = tempRet0; + $236 = (_i64Add(($232|0),($233|0),($234|0),($235|0))|0); + $237 = tempRet0; + $238 = (_i64Add(($236|0),($237|0),($230|0),($231|0))|0); + $239 = tempRet0; + $240 = (_i64Add(($238|0),($239|0),($228|0),($229|0))|0); + $241 = tempRet0; + $242 = (_i64Add(($240|0),($241|0),($226|0),($227|0))|0); + $243 = tempRet0; + $244 = (_i64Add(($242|0),($243|0),($158|0),0)|0); + $245 = tempRet0; + $246 = (___muldi3(($98|0),0,($2|0),0)|0); + $247 = tempRet0; + $248 = (___muldi3(($92|0),0,($8|0),0)|0); + $249 = tempRet0; + $250 = (___muldi3(($86|0),0,($14|0),0)|0); + $251 = tempRet0; + $252 = (___muldi3(($80|0),0,($20|0),0)|0); + $253 = tempRet0; + $254 = (___muldi3(($74|0),0,($26|0),0)|0); + $255 = tempRet0; + $256 = (___muldi3(($68|0),0,($32|0),0)|0); + $257 = tempRet0; + $258 = (___muldi3(($104|0),0,($2|0),0)|0); + $259 = tempRet0; + $260 = (___muldi3(($98|0),0,($8|0),0)|0); + $261 = tempRet0; + $262 = (___muldi3(($92|0),0,($14|0),0)|0); + $263 = tempRet0; + $264 = (___muldi3(($86|0),0,($20|0),0)|0); + $265 = tempRet0; + $266 = (___muldi3(($80|0),0,($26|0),0)|0); + $267 = tempRet0; + $268 = (___muldi3(($74|0),0,($32|0),0)|0); + $269 = tempRet0; + $270 = (___muldi3(($68|0),0,($38|0),0)|0); + $271 = tempRet0; + $272 = (_i64Add(($268|0),($269|0),($270|0),($271|0))|0); + $273 = tempRet0; + $274 = (_i64Add(($272|0),($273|0),($266|0),($267|0))|0); + $275 = tempRet0; + $276 = (_i64Add(($274|0),($275|0),($264|0),($265|0))|0); + $277 = tempRet0; + $278 = (_i64Add(($276|0),($277|0),($262|0),($263|0))|0); + $279 = tempRet0; + $280 = (_i64Add(($278|0),($279|0),($260|0),($261|0))|0); + $281 = tempRet0; + $282 = (_i64Add(($280|0),($281|0),($258|0),($259|0))|0); + $283 = tempRet0; + $284 = (_i64Add(($282|0),($283|0),($170|0),0)|0); + $285 = tempRet0; + $286 = (___muldi3(($110|0),0,($2|0),0)|0); + $287 = tempRet0; + $288 = (___muldi3(($104|0),0,($8|0),0)|0); + $289 = tempRet0; + $290 = (___muldi3(($98|0),0,($14|0),0)|0); + $291 = tempRet0; + $292 = (___muldi3(($92|0),0,($20|0),0)|0); + $293 = tempRet0; + $294 = (___muldi3(($86|0),0,($26|0),0)|0); + $295 = tempRet0; + $296 = (___muldi3(($80|0),0,($32|0),0)|0); + $297 = tempRet0; + $298 = (___muldi3(($74|0),0,($38|0),0)|0); + $299 = tempRet0; + $300 = (___muldi3(($68|0),0,($44|0),0)|0); + $301 = tempRet0; + $302 = (___muldi3(($114|0),0,($2|0),0)|0); + $303 = tempRet0; + $304 = (___muldi3(($110|0),0,($8|0),0)|0); + $305 = tempRet0; + $306 = (___muldi3(($104|0),0,($14|0),0)|0); + $307 = tempRet0; + $308 = (___muldi3(($98|0),0,($20|0),0)|0); + $309 = tempRet0; + $310 = (___muldi3(($92|0),0,($26|0),0)|0); + $311 = tempRet0; + $312 = (___muldi3(($86|0),0,($32|0),0)|0); + $313 = tempRet0; + $314 = (___muldi3(($80|0),0,($38|0),0)|0); + $315 = tempRet0; + $316 = (___muldi3(($74|0),0,($44|0),0)|0); + $317 = tempRet0; + $318 = (___muldi3(($68|0),0,($48|0),0)|0); + $319 = tempRet0; + $320 = (_i64Add(($316|0),($317|0),($318|0),($319|0))|0); + $321 = tempRet0; + $322 = (_i64Add(($320|0),($321|0),($314|0),($315|0))|0); + $323 = tempRet0; + $324 = (_i64Add(($322|0),($323|0),($312|0),($313|0))|0); + $325 = tempRet0; + $326 = (_i64Add(($324|0),($325|0),($310|0),($311|0))|0); + $327 = tempRet0; + $328 = (_i64Add(($326|0),($327|0),($308|0),($309|0))|0); + $329 = tempRet0; + $330 = (_i64Add(($328|0),($329|0),($306|0),($307|0))|0); + $331 = tempRet0; + $332 = (_i64Add(($330|0),($331|0),($302|0),($303|0))|0); + $333 = tempRet0; + $334 = (_i64Add(($332|0),($333|0),($304|0),($305|0))|0); + $335 = tempRet0; + $336 = (_i64Add(($334|0),($335|0),($180|0),0)|0); + $337 = tempRet0; + $338 = (___muldi3(($120|0),0,($2|0),0)|0); + $339 = tempRet0; + $340 = (___muldi3(($114|0),0,($8|0),0)|0); + $341 = tempRet0; + $342 = (___muldi3(($110|0),0,($14|0),0)|0); + $343 = tempRet0; + $344 = (___muldi3(($104|0),0,($20|0),0)|0); + $345 = tempRet0; + $346 = (___muldi3(($98|0),0,($26|0),0)|0); + $347 = tempRet0; + $348 = (___muldi3(($92|0),0,($32|0),0)|0); + $349 = tempRet0; + $350 = (___muldi3(($86|0),0,($38|0),0)|0); + $351 = tempRet0; + $352 = (___muldi3(($80|0),0,($44|0),0)|0); + $353 = tempRet0; + $354 = (___muldi3(($74|0),0,($48|0),0)|0); + $355 = tempRet0; + $356 = (___muldi3(($68|0),0,($54|0),0)|0); + $357 = tempRet0; + $358 = (___muldi3(($126|0),0,($2|0),0)|0); + $359 = tempRet0; + $360 = (___muldi3(($120|0),0,($8|0),0)|0); + $361 = tempRet0; + $362 = (___muldi3(($114|0),0,($14|0),0)|0); + $363 = tempRet0; + $364 = (___muldi3(($110|0),0,($20|0),0)|0); + $365 = tempRet0; + $366 = (___muldi3(($104|0),0,($26|0),0)|0); + $367 = tempRet0; + $368 = (___muldi3(($98|0),0,($32|0),0)|0); + $369 = tempRet0; + $370 = (___muldi3(($92|0),0,($38|0),0)|0); + $371 = tempRet0; + $372 = (___muldi3(($86|0),0,($44|0),0)|0); + $373 = tempRet0; + $374 = (___muldi3(($80|0),0,($48|0),0)|0); + $375 = tempRet0; + $376 = (___muldi3(($74|0),0,($54|0),0)|0); + $377 = tempRet0; + $378 = (___muldi3(($68|0),0,($60|0),0)|0); + $379 = tempRet0; + $380 = (_i64Add(($376|0),($377|0),($378|0),($379|0))|0); + $381 = tempRet0; + $382 = (_i64Add(($380|0),($381|0),($374|0),($375|0))|0); + $383 = tempRet0; + $384 = (_i64Add(($382|0),($383|0),($372|0),($373|0))|0); + $385 = tempRet0; + $386 = (_i64Add(($384|0),($385|0),($370|0),($371|0))|0); + $387 = tempRet0; + $388 = (_i64Add(($386|0),($387|0),($368|0),($369|0))|0); + $389 = tempRet0; + $390 = (_i64Add(($388|0),($389|0),($366|0),($367|0))|0); + $391 = tempRet0; + $392 = (_i64Add(($390|0),($391|0),($362|0),($363|0))|0); + $393 = tempRet0; + $394 = (_i64Add(($392|0),($393|0),($364|0),($365|0))|0); + $395 = tempRet0; + $396 = (_i64Add(($394|0),($395|0),($360|0),($361|0))|0); + $397 = tempRet0; + $398 = (_i64Add(($396|0),($397|0),($358|0),($359|0))|0); + $399 = tempRet0; + $400 = (_i64Add(($398|0),($399|0),($192|0),0)|0); + $401 = tempRet0; + $402 = (___muldi3(($130|0),($131|0),($2|0),0)|0); + $403 = tempRet0; + $404 = (___muldi3(($126|0),0,($8|0),0)|0); + $405 = tempRet0; + $406 = (___muldi3(($120|0),0,($14|0),0)|0); + $407 = tempRet0; + $408 = (___muldi3(($114|0),0,($20|0),0)|0); + $409 = tempRet0; + $410 = (___muldi3(($110|0),0,($26|0),0)|0); + $411 = tempRet0; + $412 = (___muldi3(($104|0),0,($32|0),0)|0); + $413 = tempRet0; + $414 = (___muldi3(($98|0),0,($38|0),0)|0); + $415 = tempRet0; + $416 = (___muldi3(($92|0),0,($44|0),0)|0); + $417 = tempRet0; + $418 = (___muldi3(($86|0),0,($48|0),0)|0); + $419 = tempRet0; + $420 = (___muldi3(($80|0),0,($54|0),0)|0); + $421 = tempRet0; + $422 = (___muldi3(($74|0),0,($60|0),0)|0); + $423 = tempRet0; + $424 = (___muldi3(($68|0),0,($64|0),($65|0))|0); + $425 = tempRet0; + $426 = (___muldi3(($130|0),($131|0),($8|0),0)|0); + $427 = tempRet0; + $428 = (___muldi3(($126|0),0,($14|0),0)|0); + $429 = tempRet0; + $430 = (___muldi3(($120|0),0,($20|0),0)|0); + $431 = tempRet0; + $432 = (___muldi3(($114|0),0,($26|0),0)|0); + $433 = tempRet0; + $434 = (___muldi3(($110|0),0,($32|0),0)|0); + $435 = tempRet0; + $436 = (___muldi3(($104|0),0,($38|0),0)|0); + $437 = tempRet0; + $438 = (___muldi3(($98|0),0,($44|0),0)|0); + $439 = tempRet0; + $440 = (___muldi3(($92|0),0,($48|0),0)|0); + $441 = tempRet0; + $442 = (___muldi3(($86|0),0,($54|0),0)|0); + $443 = tempRet0; + $444 = (___muldi3(($80|0),0,($60|0),0)|0); + $445 = tempRet0; + $446 = (___muldi3(($74|0),0,($64|0),($65|0))|0); + $447 = tempRet0; + $448 = (_i64Add(($444|0),($445|0),($446|0),($447|0))|0); + $449 = tempRet0; + $450 = (_i64Add(($448|0),($449|0),($442|0),($443|0))|0); + $451 = tempRet0; + $452 = (_i64Add(($450|0),($451|0),($440|0),($441|0))|0); + $453 = tempRet0; + $454 = (_i64Add(($452|0),($453|0),($438|0),($439|0))|0); + $455 = tempRet0; + $456 = (_i64Add(($454|0),($455|0),($436|0),($437|0))|0); + $457 = tempRet0; + $458 = (_i64Add(($456|0),($457|0),($432|0),($433|0))|0); + $459 = tempRet0; + $460 = (_i64Add(($458|0),($459|0),($434|0),($435|0))|0); + $461 = tempRet0; + $462 = (_i64Add(($460|0),($461|0),($430|0),($431|0))|0); + $463 = tempRet0; + $464 = (_i64Add(($462|0),($463|0),($428|0),($429|0))|0); + $465 = tempRet0; + $466 = (_i64Add(($464|0),($465|0),($426|0),($427|0))|0); + $467 = tempRet0; + $468 = (___muldi3(($130|0),($131|0),($14|0),0)|0); + $469 = tempRet0; + $470 = (___muldi3(($126|0),0,($20|0),0)|0); + $471 = tempRet0; + $472 = (___muldi3(($120|0),0,($26|0),0)|0); + $473 = tempRet0; + $474 = (___muldi3(($114|0),0,($32|0),0)|0); + $475 = tempRet0; + $476 = (___muldi3(($110|0),0,($38|0),0)|0); + $477 = tempRet0; + $478 = (___muldi3(($104|0),0,($44|0),0)|0); + $479 = tempRet0; + $480 = (___muldi3(($98|0),0,($48|0),0)|0); + $481 = tempRet0; + $482 = (___muldi3(($92|0),0,($54|0),0)|0); + $483 = tempRet0; + $484 = (___muldi3(($86|0),0,($60|0),0)|0); + $485 = tempRet0; + $486 = (___muldi3(($80|0),0,($64|0),($65|0))|0); + $487 = tempRet0; + $488 = (___muldi3(($130|0),($131|0),($20|0),0)|0); + $489 = tempRet0; + $490 = (___muldi3(($126|0),0,($26|0),0)|0); + $491 = tempRet0; + $492 = (___muldi3(($120|0),0,($32|0),0)|0); + $493 = tempRet0; + $494 = (___muldi3(($114|0),0,($38|0),0)|0); + $495 = tempRet0; + $496 = (___muldi3(($110|0),0,($44|0),0)|0); + $497 = tempRet0; + $498 = (___muldi3(($104|0),0,($48|0),0)|0); + $499 = tempRet0; + $500 = (___muldi3(($98|0),0,($54|0),0)|0); + $501 = tempRet0; + $502 = (___muldi3(($92|0),0,($60|0),0)|0); + $503 = tempRet0; + $504 = (___muldi3(($86|0),0,($64|0),($65|0))|0); + $505 = tempRet0; + $506 = (_i64Add(($502|0),($503|0),($504|0),($505|0))|0); + $507 = tempRet0; + $508 = (_i64Add(($506|0),($507|0),($500|0),($501|0))|0); + $509 = tempRet0; + $510 = (_i64Add(($508|0),($509|0),($498|0),($499|0))|0); + $511 = tempRet0; + $512 = (_i64Add(($510|0),($511|0),($494|0),($495|0))|0); + $513 = tempRet0; + $514 = (_i64Add(($512|0),($513|0),($496|0),($497|0))|0); + $515 = tempRet0; + $516 = (_i64Add(($514|0),($515|0),($492|0),($493|0))|0); + $517 = tempRet0; + $518 = (_i64Add(($516|0),($517|0),($490|0),($491|0))|0); + $519 = tempRet0; + $520 = (_i64Add(($518|0),($519|0),($488|0),($489|0))|0); + $521 = tempRet0; + $522 = (___muldi3(($130|0),($131|0),($26|0),0)|0); + $523 = tempRet0; + $524 = (___muldi3(($126|0),0,($32|0),0)|0); + $525 = tempRet0; + $526 = (___muldi3(($120|0),0,($38|0),0)|0); + $527 = tempRet0; + $528 = (___muldi3(($114|0),0,($44|0),0)|0); + $529 = tempRet0; + $530 = (___muldi3(($110|0),0,($48|0),0)|0); + $531 = tempRet0; + $532 = (___muldi3(($104|0),0,($54|0),0)|0); + $533 = tempRet0; + $534 = (___muldi3(($98|0),0,($60|0),0)|0); + $535 = tempRet0; + $536 = (___muldi3(($92|0),0,($64|0),($65|0))|0); + $537 = tempRet0; + $538 = (___muldi3(($130|0),($131|0),($32|0),0)|0); + $539 = tempRet0; + $540 = (___muldi3(($126|0),0,($38|0),0)|0); + $541 = tempRet0; + $542 = (___muldi3(($120|0),0,($44|0),0)|0); + $543 = tempRet0; + $544 = (___muldi3(($114|0),0,($48|0),0)|0); + $545 = tempRet0; + $546 = (___muldi3(($110|0),0,($54|0),0)|0); + $547 = tempRet0; + $548 = (___muldi3(($104|0),0,($60|0),0)|0); + $549 = tempRet0; + $550 = (___muldi3(($98|0),0,($64|0),($65|0))|0); + $551 = tempRet0; + $552 = (_i64Add(($548|0),($549|0),($550|0),($551|0))|0); + $553 = tempRet0; + $554 = (_i64Add(($552|0),($553|0),($544|0),($545|0))|0); + $555 = tempRet0; + $556 = (_i64Add(($554|0),($555|0),($546|0),($547|0))|0); + $557 = tempRet0; + $558 = (_i64Add(($556|0),($557|0),($542|0),($543|0))|0); + $559 = tempRet0; + $560 = (_i64Add(($558|0),($559|0),($540|0),($541|0))|0); + $561 = tempRet0; + $562 = (_i64Add(($560|0),($561|0),($538|0),($539|0))|0); + $563 = tempRet0; + $564 = (___muldi3(($130|0),($131|0),($38|0),0)|0); + $565 = tempRet0; + $566 = (___muldi3(($126|0),0,($44|0),0)|0); + $567 = tempRet0; + $568 = (___muldi3(($120|0),0,($48|0),0)|0); + $569 = tempRet0; + $570 = (___muldi3(($114|0),0,($54|0),0)|0); + $571 = tempRet0; + $572 = (___muldi3(($110|0),0,($60|0),0)|0); + $573 = tempRet0; + $574 = (___muldi3(($104|0),0,($64|0),($65|0))|0); + $575 = tempRet0; + $576 = (___muldi3(($130|0),($131|0),($44|0),0)|0); + $577 = tempRet0; + $578 = (___muldi3(($126|0),0,($48|0),0)|0); + $579 = tempRet0; + $580 = (___muldi3(($120|0),0,($54|0),0)|0); + $581 = tempRet0; + $582 = (___muldi3(($114|0),0,($60|0),0)|0); + $583 = tempRet0; + $584 = (___muldi3(($110|0),0,($64|0),($65|0))|0); + $585 = tempRet0; + $586 = (_i64Add(($584|0),($585|0),($582|0),($583|0))|0); + $587 = tempRet0; + $588 = (_i64Add(($586|0),($587|0),($580|0),($581|0))|0); + $589 = tempRet0; + $590 = (_i64Add(($588|0),($589|0),($578|0),($579|0))|0); + $591 = tempRet0; + $592 = (_i64Add(($590|0),($591|0),($576|0),($577|0))|0); + $593 = tempRet0; + $594 = (___muldi3(($130|0),($131|0),($48|0),0)|0); + $595 = tempRet0; + $596 = (___muldi3(($126|0),0,($54|0),0)|0); + $597 = tempRet0; + $598 = (___muldi3(($120|0),0,($60|0),0)|0); + $599 = tempRet0; + $600 = (___muldi3(($114|0),0,($64|0),($65|0))|0); + $601 = tempRet0; + $602 = (___muldi3(($130|0),($131|0),($54|0),0)|0); + $603 = tempRet0; + $604 = (___muldi3(($126|0),0,($60|0),0)|0); + $605 = tempRet0; + $606 = (___muldi3(($120|0),0,($64|0),($65|0))|0); + $607 = tempRet0; + $608 = (_i64Add(($604|0),($605|0),($606|0),($607|0))|0); + $609 = tempRet0; + $610 = (_i64Add(($608|0),($609|0),($602|0),($603|0))|0); + $611 = tempRet0; + $612 = (___muldi3(($130|0),($131|0),($60|0),0)|0); + $613 = tempRet0; + $614 = (___muldi3(($126|0),0,($64|0),($65|0))|0); + $615 = tempRet0; + $616 = (_i64Add(($612|0),($613|0),($614|0),($615|0))|0); + $617 = tempRet0; + $618 = (___muldi3(($130|0),($131|0),($64|0),($65|0))|0); + $619 = tempRet0; + $620 = (_i64Add(($200|0),($201|0),1048576,0)|0); + $621 = tempRet0; + $622 = (_bitshift64Lshr(($620|0),($621|0),21)|0); + $623 = tempRet0; + $624 = (_i64Add(($202|0),($203|0),($204|0),($205|0))|0); + $625 = tempRet0; + $626 = (_i64Add(($624|0),($625|0),($140|0),0)|0); + $627 = tempRet0; + $628 = (_i64Add(($626|0),($627|0),($622|0),($623|0))|0); + $629 = tempRet0; + $630 = (_bitshift64Shl(($622|0),($623|0),21)|0); + $631 = tempRet0; + $632 = (_i64Subtract(($200|0),($201|0),($630|0),($631|0))|0); + $633 = tempRet0; + $634 = (_i64Add(($216|0),($217|0),1048576,0)|0); + $635 = tempRet0; + $636 = (_bitshift64Lshr(($634|0),($635|0),21)|0); + $637 = tempRet0; + $638 = (_i64Add(($222|0),($223|0),($224|0),($225|0))|0); + $639 = tempRet0; + $640 = (_i64Add(($638|0),($639|0),($220|0),($221|0))|0); + $641 = tempRet0; + $642 = (_i64Add(($640|0),($641|0),($218|0),($219|0))|0); + $643 = tempRet0; + $644 = (_i64Add(($642|0),($643|0),($152|0),0)|0); + $645 = tempRet0; + $646 = (_i64Add(($644|0),($645|0),($636|0),($637|0))|0); + $647 = tempRet0; + $648 = (_bitshift64Shl(($636|0),($637|0),21)|0); + $649 = tempRet0; + $650 = (_i64Add(($244|0),($245|0),1048576,0)|0); + $651 = tempRet0; + $652 = (_bitshift64Ashr(($650|0),($651|0),21)|0); + $653 = tempRet0; + $654 = (_i64Add(($254|0),($255|0),($256|0),($257|0))|0); + $655 = tempRet0; + $656 = (_i64Add(($654|0),($655|0),($252|0),($253|0))|0); + $657 = tempRet0; + $658 = (_i64Add(($656|0),($657|0),($250|0),($251|0))|0); + $659 = tempRet0; + $660 = (_i64Add(($658|0),($659|0),($248|0),($249|0))|0); + $661 = tempRet0; + $662 = (_i64Add(($660|0),($661|0),($246|0),($247|0))|0); + $663 = tempRet0; + $664 = (_i64Add(($662|0),($663|0),($164|0),0)|0); + $665 = tempRet0; + $666 = (_i64Add(($664|0),($665|0),($652|0),($653|0))|0); + $667 = tempRet0; + $668 = (_bitshift64Shl(($652|0),($653|0),21)|0); + $669 = tempRet0; + $670 = (_i64Subtract(($244|0),($245|0),($668|0),($669|0))|0); + $671 = tempRet0; + $672 = (_i64Add(($284|0),($285|0),1048576,0)|0); + $673 = tempRet0; + $674 = (_bitshift64Ashr(($672|0),($673|0),21)|0); + $675 = tempRet0; + $676 = (_i64Add(($298|0),($299|0),($300|0),($301|0))|0); + $677 = tempRet0; + $678 = (_i64Add(($676|0),($677|0),($296|0),($297|0))|0); + $679 = tempRet0; + $680 = (_i64Add(($678|0),($679|0),($294|0),($295|0))|0); + $681 = tempRet0; + $682 = (_i64Add(($680|0),($681|0),($292|0),($293|0))|0); + $683 = tempRet0; + $684 = (_i64Add(($682|0),($683|0),($290|0),($291|0))|0); + $685 = tempRet0; + $686 = (_i64Add(($684|0),($685|0),($288|0),($289|0))|0); + $687 = tempRet0; + $688 = (_i64Add(($686|0),($687|0),($286|0),($287|0))|0); + $689 = tempRet0; + $690 = (_i64Add(($688|0),($689|0),($176|0),0)|0); + $691 = tempRet0; + $692 = (_i64Add(($690|0),($691|0),($674|0),($675|0))|0); + $693 = tempRet0; + $694 = (_bitshift64Shl(($674|0),($675|0),21)|0); + $695 = tempRet0; + $696 = (_i64Add(($336|0),($337|0),1048576,0)|0); + $697 = tempRet0; + $698 = (_bitshift64Ashr(($696|0),($697|0),21)|0); + $699 = tempRet0; + $700 = (_i64Add(($354|0),($355|0),($356|0),($357|0))|0); + $701 = tempRet0; + $702 = (_i64Add(($700|0),($701|0),($352|0),($353|0))|0); + $703 = tempRet0; + $704 = (_i64Add(($702|0),($703|0),($350|0),($351|0))|0); + $705 = tempRet0; + $706 = (_i64Add(($704|0),($705|0),($348|0),($349|0))|0); + $707 = tempRet0; + $708 = (_i64Add(($706|0),($707|0),($346|0),($347|0))|0); + $709 = tempRet0; + $710 = (_i64Add(($708|0),($709|0),($344|0),($345|0))|0); + $711 = tempRet0; + $712 = (_i64Add(($710|0),($711|0),($340|0),($341|0))|0); + $713 = tempRet0; + $714 = (_i64Add(($712|0),($713|0),($342|0),($343|0))|0); + $715 = tempRet0; + $716 = (_i64Add(($714|0),($715|0),($338|0),($339|0))|0); + $717 = tempRet0; + $718 = (_i64Add(($716|0),($717|0),($186|0),0)|0); + $719 = tempRet0; + $720 = (_i64Add(($718|0),($719|0),($698|0),($699|0))|0); + $721 = tempRet0; + $722 = (_bitshift64Shl(($698|0),($699|0),21)|0); + $723 = tempRet0; + $724 = (_i64Add(($400|0),($401|0),1048576,0)|0); + $725 = tempRet0; + $726 = (_bitshift64Ashr(($724|0),($725|0),21)|0); + $727 = tempRet0; + $728 = (_i64Add(($422|0),($423|0),($424|0),($425|0))|0); + $729 = tempRet0; + $730 = (_i64Add(($728|0),($729|0),($420|0),($421|0))|0); + $731 = tempRet0; + $732 = (_i64Add(($730|0),($731|0),($418|0),($419|0))|0); + $733 = tempRet0; + $734 = (_i64Add(($732|0),($733|0),($416|0),($417|0))|0); + $735 = tempRet0; + $736 = (_i64Add(($734|0),($735|0),($414|0),($415|0))|0); + $737 = tempRet0; + $738 = (_i64Add(($736|0),($737|0),($412|0),($413|0))|0); + $739 = tempRet0; + $740 = (_i64Add(($738|0),($739|0),($408|0),($409|0))|0); + $741 = tempRet0; + $742 = (_i64Add(($740|0),($741|0),($410|0),($411|0))|0); + $743 = tempRet0; + $744 = (_i64Add(($742|0),($743|0),($406|0),($407|0))|0); + $745 = tempRet0; + $746 = (_i64Add(($744|0),($745|0),($402|0),($403|0))|0); + $747 = tempRet0; + $748 = (_i64Add(($746|0),($747|0),($404|0),($405|0))|0); + $749 = tempRet0; + $750 = (_i64Add(($748|0),($749|0),($196|0),($197|0))|0); + $751 = tempRet0; + $752 = (_i64Add(($750|0),($751|0),($726|0),($727|0))|0); + $753 = tempRet0; + $754 = (_bitshift64Shl(($726|0),($727|0),21)|0); + $755 = tempRet0; + $756 = (_i64Add(($466|0),($467|0),1048576,0)|0); + $757 = tempRet0; + $758 = (_bitshift64Ashr(($756|0),($757|0),21)|0); + $759 = tempRet0; + $760 = (_i64Add(($484|0),($485|0),($486|0),($487|0))|0); + $761 = tempRet0; + $762 = (_i64Add(($760|0),($761|0),($482|0),($483|0))|0); + $763 = tempRet0; + $764 = (_i64Add(($762|0),($763|0),($480|0),($481|0))|0); + $765 = tempRet0; + $766 = (_i64Add(($764|0),($765|0),($478|0),($479|0))|0); + $767 = tempRet0; + $768 = (_i64Add(($766|0),($767|0),($474|0),($475|0))|0); + $769 = tempRet0; + $770 = (_i64Add(($768|0),($769|0),($476|0),($477|0))|0); + $771 = tempRet0; + $772 = (_i64Add(($770|0),($771|0),($472|0),($473|0))|0); + $773 = tempRet0; + $774 = (_i64Add(($772|0),($773|0),($470|0),($471|0))|0); + $775 = tempRet0; + $776 = (_i64Add(($774|0),($775|0),($468|0),($469|0))|0); + $777 = tempRet0; + $778 = (_i64Add(($776|0),($777|0),($758|0),($759|0))|0); + $779 = tempRet0; + $780 = (_bitshift64Shl(($758|0),($759|0),21)|0); + $781 = tempRet0; + $782 = (_i64Add(($520|0),($521|0),1048576,0)|0); + $783 = tempRet0; + $784 = (_bitshift64Ashr(($782|0),($783|0),21)|0); + $785 = tempRet0; + $786 = (_i64Add(($534|0),($535|0),($536|0),($537|0))|0); + $787 = tempRet0; + $788 = (_i64Add(($786|0),($787|0),($532|0),($533|0))|0); + $789 = tempRet0; + $790 = (_i64Add(($788|0),($789|0),($528|0),($529|0))|0); + $791 = tempRet0; + $792 = (_i64Add(($790|0),($791|0),($530|0),($531|0))|0); + $793 = tempRet0; + $794 = (_i64Add(($792|0),($793|0),($526|0),($527|0))|0); + $795 = tempRet0; + $796 = (_i64Add(($794|0),($795|0),($524|0),($525|0))|0); + $797 = tempRet0; + $798 = (_i64Add(($796|0),($797|0),($522|0),($523|0))|0); + $799 = tempRet0; + $800 = (_i64Add(($798|0),($799|0),($784|0),($785|0))|0); + $801 = tempRet0; + $802 = (_bitshift64Shl(($784|0),($785|0),21)|0); + $803 = tempRet0; + $804 = (_i64Add(($562|0),($563|0),1048576,0)|0); + $805 = tempRet0; + $806 = (_bitshift64Ashr(($804|0),($805|0),21)|0); + $807 = tempRet0; + $808 = (_i64Add(($570|0),($571|0),($574|0),($575|0))|0); + $809 = tempRet0; + $810 = (_i64Add(($808|0),($809|0),($572|0),($573|0))|0); + $811 = tempRet0; + $812 = (_i64Add(($810|0),($811|0),($568|0),($569|0))|0); + $813 = tempRet0; + $814 = (_i64Add(($812|0),($813|0),($566|0),($567|0))|0); + $815 = tempRet0; + $816 = (_i64Add(($814|0),($815|0),($564|0),($565|0))|0); + $817 = tempRet0; + $818 = (_i64Add(($816|0),($817|0),($806|0),($807|0))|0); + $819 = tempRet0; + $820 = (_bitshift64Shl(($806|0),($807|0),21)|0); + $821 = tempRet0; + $822 = (_i64Add(($592|0),($593|0),1048576,0)|0); + $823 = tempRet0; + $824 = (_bitshift64Ashr(($822|0),($823|0),21)|0); + $825 = tempRet0; + $826 = (_i64Add(($598|0),($599|0),($600|0),($601|0))|0); + $827 = tempRet0; + $828 = (_i64Add(($826|0),($827|0),($596|0),($597|0))|0); + $829 = tempRet0; + $830 = (_i64Add(($828|0),($829|0),($594|0),($595|0))|0); + $831 = tempRet0; + $832 = (_i64Add(($830|0),($831|0),($824|0),($825|0))|0); + $833 = tempRet0; + $834 = (_bitshift64Shl(($824|0),($825|0),21)|0); + $835 = tempRet0; + $836 = (_i64Subtract(($592|0),($593|0),($834|0),($835|0))|0); + $837 = tempRet0; + $838 = (_i64Add(($610|0),($611|0),1048576,0)|0); + $839 = tempRet0; + $840 = (_bitshift64Lshr(($838|0),($839|0),21)|0); + $841 = tempRet0; + $842 = (_i64Add(($616|0),($617|0),($840|0),($841|0))|0); + $843 = tempRet0; + $844 = (_bitshift64Shl(($840|0),($841|0),21)|0); + $845 = tempRet0; + $846 = (_i64Subtract(($610|0),($611|0),($844|0),($845|0))|0); + $847 = tempRet0; + $848 = (_i64Add(($618|0),($619|0),1048576,0)|0); + $849 = tempRet0; + $850 = (_bitshift64Lshr(($848|0),($849|0),21)|0); + $851 = tempRet0; + $852 = (_bitshift64Shl(($850|0),($851|0),21)|0); + $853 = tempRet0; + $854 = (_i64Subtract(($618|0),($619|0),($852|0),($853|0))|0); + $855 = tempRet0; + $856 = (_i64Add(($628|0),($629|0),1048576,0)|0); + $857 = tempRet0; + $858 = (_bitshift64Lshr(($856|0),($857|0),21)|0); + $859 = tempRet0; + $860 = (_bitshift64Shl(($858|0),($859|0),21)|0); + $861 = tempRet0; + $862 = (_i64Subtract(($628|0),($629|0),($860|0),($861|0))|0); + $863 = tempRet0; + $864 = (_i64Add(($646|0),($647|0),1048576,0)|0); + $865 = tempRet0; + $866 = (_bitshift64Ashr(($864|0),($865|0),21)|0); + $867 = tempRet0; + $868 = (_i64Add(($670|0),($671|0),($866|0),($867|0))|0); + $869 = tempRet0; + $870 = (_bitshift64Shl(($866|0),($867|0),21)|0); + $871 = tempRet0; + $872 = (_i64Subtract(($646|0),($647|0),($870|0),($871|0))|0); + $873 = tempRet0; + $874 = (_i64Add(($666|0),($667|0),1048576,0)|0); + $875 = tempRet0; + $876 = (_bitshift64Ashr(($874|0),($875|0),21)|0); + $877 = tempRet0; + $878 = (_bitshift64Shl(($876|0),($877|0),21)|0); + $879 = tempRet0; + $880 = (_i64Subtract(($666|0),($667|0),($878|0),($879|0))|0); + $881 = tempRet0; + $882 = (_i64Add(($692|0),($693|0),1048576,0)|0); + $883 = tempRet0; + $884 = (_bitshift64Ashr(($882|0),($883|0),21)|0); + $885 = tempRet0; + $886 = (_bitshift64Shl(($884|0),($885|0),21)|0); + $887 = tempRet0; + $888 = (_i64Add(($720|0),($721|0),1048576,0)|0); + $889 = tempRet0; + $890 = (_bitshift64Ashr(($888|0),($889|0),21)|0); + $891 = tempRet0; + $892 = (_bitshift64Shl(($890|0),($891|0),21)|0); + $893 = tempRet0; + $894 = (_i64Add(($752|0),($753|0),1048576,0)|0); + $895 = tempRet0; + $896 = (_bitshift64Ashr(($894|0),($895|0),21)|0); + $897 = tempRet0; + $898 = (_bitshift64Shl(($896|0),($897|0),21)|0); + $899 = tempRet0; + $900 = (_i64Add(($778|0),($779|0),1048576,0)|0); + $901 = tempRet0; + $902 = (_bitshift64Ashr(($900|0),($901|0),21)|0); + $903 = tempRet0; + $904 = (_bitshift64Shl(($902|0),($903|0),21)|0); + $905 = tempRet0; + $906 = (_i64Add(($800|0),($801|0),1048576,0)|0); + $907 = tempRet0; + $908 = (_bitshift64Ashr(($906|0),($907|0),21)|0); + $909 = tempRet0; + $910 = (_bitshift64Shl(($908|0),($909|0),21)|0); + $911 = tempRet0; + $912 = (_i64Add(($818|0),($819|0),1048576,0)|0); + $913 = tempRet0; + $914 = (_bitshift64Ashr(($912|0),($913|0),21)|0); + $915 = tempRet0; + $916 = (_i64Add(($914|0),($915|0),($836|0),($837|0))|0); + $917 = tempRet0; + $918 = (_bitshift64Shl(($914|0),($915|0),21)|0); + $919 = tempRet0; + $920 = (_i64Subtract(($818|0),($819|0),($918|0),($919|0))|0); + $921 = tempRet0; + $922 = (_i64Add(($832|0),($833|0),1048576,0)|0); + $923 = tempRet0; + $924 = (_bitshift64Ashr(($922|0),($923|0),21)|0); + $925 = tempRet0; + $926 = (_i64Add(($924|0),($925|0),($846|0),($847|0))|0); + $927 = tempRet0; + $928 = (_bitshift64Shl(($924|0),($925|0),21)|0); + $929 = tempRet0; + $930 = (_i64Subtract(($832|0),($833|0),($928|0),($929|0))|0); + $931 = tempRet0; + $932 = (_i64Add(($842|0),($843|0),1048576,0)|0); + $933 = tempRet0; + $934 = (_bitshift64Lshr(($932|0),($933|0),21)|0); + $935 = tempRet0; + $936 = (_i64Add(($934|0),($935|0),($854|0),($855|0))|0); + $937 = tempRet0; + $938 = (_bitshift64Shl(($934|0),($935|0),21)|0); + $939 = tempRet0; + $940 = (_i64Subtract(($842|0),($843|0),($938|0),($939|0))|0); + $941 = tempRet0; + $942 = (___muldi3(($850|0),($851|0),666643,0)|0); + $943 = tempRet0; + $944 = (___muldi3(($850|0),($851|0),470296,0)|0); + $945 = tempRet0; + $946 = (___muldi3(($850|0),($851|0),654183,0)|0); + $947 = tempRet0; + $948 = (___muldi3(($850|0),($851|0),-997805,-1)|0); + $949 = tempRet0; + $950 = (___muldi3(($850|0),($851|0),136657,0)|0); + $951 = tempRet0; + $952 = (___muldi3(($850|0),($851|0),-683901,-1)|0); + $953 = tempRet0; + $954 = (_i64Add(($952|0),($953|0),($562|0),($563|0))|0); + $955 = tempRet0; + $956 = (_i64Subtract(($954|0),($955|0),($820|0),($821|0))|0); + $957 = tempRet0; + $958 = (_i64Add(($956|0),($957|0),($908|0),($909|0))|0); + $959 = tempRet0; + $960 = (___muldi3(($936|0),($937|0),666643,0)|0); + $961 = tempRet0; + $962 = (___muldi3(($936|0),($937|0),470296,0)|0); + $963 = tempRet0; + $964 = (___muldi3(($936|0),($937|0),654183,0)|0); + $965 = tempRet0; + $966 = (___muldi3(($936|0),($937|0),-997805,-1)|0); + $967 = tempRet0; + $968 = (___muldi3(($936|0),($937|0),136657,0)|0); + $969 = tempRet0; + $970 = (___muldi3(($936|0),($937|0),-683901,-1)|0); + $971 = tempRet0; + $972 = (___muldi3(($940|0),($941|0),666643,0)|0); + $973 = tempRet0; + $974 = (___muldi3(($940|0),($941|0),470296,0)|0); + $975 = tempRet0; + $976 = (___muldi3(($940|0),($941|0),654183,0)|0); + $977 = tempRet0; + $978 = (___muldi3(($940|0),($941|0),-997805,-1)|0); + $979 = tempRet0; + $980 = (___muldi3(($940|0),($941|0),136657,0)|0); + $981 = tempRet0; + $982 = (___muldi3(($940|0),($941|0),-683901,-1)|0); + $983 = tempRet0; + $984 = (_i64Add(($948|0),($949|0),($520|0),($521|0))|0); + $985 = tempRet0; + $986 = (_i64Subtract(($984|0),($985|0),($802|0),($803|0))|0); + $987 = tempRet0; + $988 = (_i64Add(($986|0),($987|0),($902|0),($903|0))|0); + $989 = tempRet0; + $990 = (_i64Add(($988|0),($989|0),($968|0),($969|0))|0); + $991 = tempRet0; + $992 = (_i64Add(($990|0),($991|0),($982|0),($983|0))|0); + $993 = tempRet0; + $994 = (___muldi3(($926|0),($927|0),666643,0)|0); + $995 = tempRet0; + $996 = (___muldi3(($926|0),($927|0),470296,0)|0); + $997 = tempRet0; + $998 = (___muldi3(($926|0),($927|0),654183,0)|0); + $999 = tempRet0; + $1000 = (___muldi3(($926|0),($927|0),-997805,-1)|0); + $1001 = tempRet0; + $1002 = (___muldi3(($926|0),($927|0),136657,0)|0); + $1003 = tempRet0; + $1004 = (___muldi3(($926|0),($927|0),-683901,-1)|0); + $1005 = tempRet0; + $1006 = (___muldi3(($930|0),($931|0),666643,0)|0); + $1007 = tempRet0; + $1008 = (___muldi3(($930|0),($931|0),470296,0)|0); + $1009 = tempRet0; + $1010 = (___muldi3(($930|0),($931|0),654183,0)|0); + $1011 = tempRet0; + $1012 = (___muldi3(($930|0),($931|0),-997805,-1)|0); + $1013 = tempRet0; + $1014 = (___muldi3(($930|0),($931|0),136657,0)|0); + $1015 = tempRet0; + $1016 = (___muldi3(($930|0),($931|0),-683901,-1)|0); + $1017 = tempRet0; + $1018 = (_i64Add(($944|0),($945|0),($466|0),($467|0))|0); + $1019 = tempRet0; + $1020 = (_i64Subtract(($1018|0),($1019|0),($780|0),($781|0))|0); + $1021 = tempRet0; + $1022 = (_i64Add(($1020|0),($1021|0),($964|0),($965|0))|0); + $1023 = tempRet0; + $1024 = (_i64Add(($1022|0),($1023|0),($1002|0),($1003|0))|0); + $1025 = tempRet0; + $1026 = (_i64Add(($1024|0),($1025|0),($978|0),($979|0))|0); + $1027 = tempRet0; + $1028 = (_i64Add(($1026|0),($1027|0),($1016|0),($1017|0))|0); + $1029 = tempRet0; + $1030 = (_i64Add(($1028|0),($1029|0),($896|0),($897|0))|0); + $1031 = tempRet0; + $1032 = (___muldi3(($916|0),($917|0),666643,0)|0); + $1033 = tempRet0; + $1034 = (_i64Add(($1032|0),($1033|0),($284|0),($285|0))|0); + $1035 = tempRet0; + $1036 = (_i64Subtract(($1034|0),($1035|0),($694|0),($695|0))|0); + $1037 = tempRet0; + $1038 = (_i64Add(($1036|0),($1037|0),($876|0),($877|0))|0); + $1039 = tempRet0; + $1040 = (___muldi3(($916|0),($917|0),470296,0)|0); + $1041 = tempRet0; + $1042 = (___muldi3(($916|0),($917|0),654183,0)|0); + $1043 = tempRet0; + $1044 = (_i64Add(($994|0),($995|0),($336|0),($337|0))|0); + $1045 = tempRet0; + $1046 = (_i64Add(($1044|0),($1045|0),($1042|0),($1043|0))|0); + $1047 = tempRet0; + $1048 = (_i64Add(($1046|0),($1047|0),($1008|0),($1009|0))|0); + $1049 = tempRet0; + $1050 = (_i64Subtract(($1048|0),($1049|0),($722|0),($723|0))|0); + $1051 = tempRet0; + $1052 = (_i64Add(($1050|0),($1051|0),($884|0),($885|0))|0); + $1053 = tempRet0; + $1054 = (___muldi3(($916|0),($917|0),-997805,-1)|0); + $1055 = tempRet0; + $1056 = (___muldi3(($916|0),($917|0),136657,0)|0); + $1057 = tempRet0; + $1058 = (_i64Add(($998|0),($999|0),($960|0),($961|0))|0); + $1059 = tempRet0; + $1060 = (_i64Add(($1058|0),($1059|0),($1056|0),($1057|0))|0); + $1061 = tempRet0; + $1062 = (_i64Add(($1060|0),($1061|0),($974|0),($975|0))|0); + $1063 = tempRet0; + $1064 = (_i64Add(($1062|0),($1063|0),($1012|0),($1013|0))|0); + $1065 = tempRet0; + $1066 = (_i64Add(($1064|0),($1065|0),($400|0),($401|0))|0); + $1067 = tempRet0; + $1068 = (_i64Add(($1066|0),($1067|0),($890|0),($891|0))|0); + $1069 = tempRet0; + $1070 = (_i64Subtract(($1068|0),($1069|0),($754|0),($755|0))|0); + $1071 = tempRet0; + $1072 = (___muldi3(($916|0),($917|0),-683901,-1)|0); + $1073 = tempRet0; + $1074 = (_i64Add(($1038|0),($1039|0),1048576,0)|0); + $1075 = tempRet0; + $1076 = (_bitshift64Ashr(($1074|0),($1075|0),21)|0); + $1077 = tempRet0; + $1078 = (_i64Add(($1006|0),($1007|0),($1040|0),($1041|0))|0); + $1079 = tempRet0; + $1080 = (_i64Add(($1078|0),($1079|0),($692|0),($693|0))|0); + $1081 = tempRet0; + $1082 = (_i64Subtract(($1080|0),($1081|0),($886|0),($887|0))|0); + $1083 = tempRet0; + $1084 = (_i64Add(($1082|0),($1083|0),($1076|0),($1077|0))|0); + $1085 = tempRet0; + $1086 = (_bitshift64Shl(($1076|0),($1077|0),21)|0); + $1087 = tempRet0; + $1088 = (_i64Add(($1052|0),($1053|0),1048576,0)|0); + $1089 = tempRet0; + $1090 = (_bitshift64Ashr(($1088|0),($1089|0),21)|0); + $1091 = tempRet0; + $1092 = (_i64Add(($1054|0),($1055|0),($996|0),($997|0))|0); + $1093 = tempRet0; + $1094 = (_i64Add(($1092|0),($1093|0),($972|0),($973|0))|0); + $1095 = tempRet0; + $1096 = (_i64Add(($1094|0),($1095|0),($1010|0),($1011|0))|0); + $1097 = tempRet0; + $1098 = (_i64Add(($1096|0),($1097|0),($720|0),($721|0))|0); + $1099 = tempRet0; + $1100 = (_i64Subtract(($1098|0),($1099|0),($892|0),($893|0))|0); + $1101 = tempRet0; + $1102 = (_i64Add(($1100|0),($1101|0),($1090|0),($1091|0))|0); + $1103 = tempRet0; + $1104 = (_bitshift64Shl(($1090|0),($1091|0),21)|0); + $1105 = tempRet0; + $1106 = (_i64Add(($1070|0),($1071|0),1048576,0)|0); + $1107 = tempRet0; + $1108 = (_bitshift64Ashr(($1106|0),($1107|0),21)|0); + $1109 = tempRet0; + $1110 = (_i64Add(($962|0),($963|0),($942|0),($943|0))|0); + $1111 = tempRet0; + $1112 = (_i64Add(($1110|0),($1111|0),($1000|0),($1001|0))|0); + $1113 = tempRet0; + $1114 = (_i64Add(($1112|0),($1113|0),($1072|0),($1073|0))|0); + $1115 = tempRet0; + $1116 = (_i64Add(($1114|0),($1115|0),($976|0),($977|0))|0); + $1117 = tempRet0; + $1118 = (_i64Add(($1116|0),($1117|0),($1014|0),($1015|0))|0); + $1119 = tempRet0; + $1120 = (_i64Add(($1118|0),($1119|0),($752|0),($753|0))|0); + $1121 = tempRet0; + $1122 = (_i64Subtract(($1120|0),($1121|0),($898|0),($899|0))|0); + $1123 = tempRet0; + $1124 = (_i64Add(($1122|0),($1123|0),($1108|0),($1109|0))|0); + $1125 = tempRet0; + $1126 = (_bitshift64Shl(($1108|0),($1109|0),21)|0); + $1127 = tempRet0; + $1128 = (_i64Add(($1030|0),($1031|0),1048576,0)|0); + $1129 = tempRet0; + $1130 = (_bitshift64Ashr(($1128|0),($1129|0),21)|0); + $1131 = tempRet0; + $1132 = (_i64Add(($778|0),($779|0),($946|0),($947|0))|0); + $1133 = tempRet0; + $1134 = (_i64Subtract(($1132|0),($1133|0),($904|0),($905|0))|0); + $1135 = tempRet0; + $1136 = (_i64Add(($1134|0),($1135|0),($966|0),($967|0))|0); + $1137 = tempRet0; + $1138 = (_i64Add(($1136|0),($1137|0),($1004|0),($1005|0))|0); + $1139 = tempRet0; + $1140 = (_i64Add(($1138|0),($1139|0),($980|0),($981|0))|0); + $1141 = tempRet0; + $1142 = (_i64Add(($1140|0),($1141|0),($1130|0),($1131|0))|0); + $1143 = tempRet0; + $1144 = (_bitshift64Shl(($1130|0),($1131|0),21)|0); + $1145 = tempRet0; + $1146 = (_i64Subtract(($1030|0),($1031|0),($1144|0),($1145|0))|0); + $1147 = tempRet0; + $1148 = (_i64Add(($992|0),($993|0),1048576,0)|0); + $1149 = tempRet0; + $1150 = (_bitshift64Ashr(($1148|0),($1149|0),21)|0); + $1151 = tempRet0; + $1152 = (_i64Add(($800|0),($801|0),($950|0),($951|0))|0); + $1153 = tempRet0; + $1154 = (_i64Subtract(($1152|0),($1153|0),($910|0),($911|0))|0); + $1155 = tempRet0; + $1156 = (_i64Add(($1154|0),($1155|0),($970|0),($971|0))|0); + $1157 = tempRet0; + $1158 = (_i64Add(($1156|0),($1157|0),($1150|0),($1151|0))|0); + $1159 = tempRet0; + $1160 = (_bitshift64Shl(($1150|0),($1151|0),21)|0); + $1161 = tempRet0; + $1162 = (_i64Subtract(($992|0),($993|0),($1160|0),($1161|0))|0); + $1163 = tempRet0; + $1164 = (_i64Add(($958|0),($959|0),1048576,0)|0); + $1165 = tempRet0; + $1166 = (_bitshift64Ashr(($1164|0),($1165|0),21)|0); + $1167 = tempRet0; + $1168 = (_i64Add(($1166|0),($1167|0),($920|0),($921|0))|0); + $1169 = tempRet0; + $1170 = (_bitshift64Shl(($1166|0),($1167|0),21)|0); + $1171 = tempRet0; + $1172 = (_i64Subtract(($958|0),($959|0),($1170|0),($1171|0))|0); + $1173 = tempRet0; + $1174 = (_i64Add(($1084|0),($1085|0),1048576,0)|0); + $1175 = tempRet0; + $1176 = (_bitshift64Ashr(($1174|0),($1175|0),21)|0); + $1177 = tempRet0; + $1178 = (_bitshift64Shl(($1176|0),($1177|0),21)|0); + $1179 = tempRet0; + $1180 = (_i64Add(($1102|0),($1103|0),1048576,0)|0); + $1181 = tempRet0; + $1182 = (_bitshift64Ashr(($1180|0),($1181|0),21)|0); + $1183 = tempRet0; + $1184 = (_bitshift64Shl(($1182|0),($1183|0),21)|0); + $1185 = tempRet0; + $1186 = (_i64Add(($1124|0),($1125|0),1048576,0)|0); + $1187 = tempRet0; + $1188 = (_bitshift64Ashr(($1186|0),($1187|0),21)|0); + $1189 = tempRet0; + $1190 = (_i64Add(($1146|0),($1147|0),($1188|0),($1189|0))|0); + $1191 = tempRet0; + $1192 = (_bitshift64Shl(($1188|0),($1189|0),21)|0); + $1193 = tempRet0; + $1194 = (_i64Subtract(($1124|0),($1125|0),($1192|0),($1193|0))|0); + $1195 = tempRet0; + $1196 = (_i64Add(($1142|0),($1143|0),1048576,0)|0); + $1197 = tempRet0; + $1198 = (_bitshift64Ashr(($1196|0),($1197|0),21)|0); + $1199 = tempRet0; + $1200 = (_i64Add(($1198|0),($1199|0),($1162|0),($1163|0))|0); + $1201 = tempRet0; + $1202 = (_bitshift64Shl(($1198|0),($1199|0),21)|0); + $1203 = tempRet0; + $1204 = (_i64Subtract(($1142|0),($1143|0),($1202|0),($1203|0))|0); + $1205 = tempRet0; + $1206 = (_i64Add(($1158|0),($1159|0),1048576,0)|0); + $1207 = tempRet0; + $1208 = (_bitshift64Ashr(($1206|0),($1207|0),21)|0); + $1209 = tempRet0; + $1210 = (_i64Add(($1208|0),($1209|0),($1172|0),($1173|0))|0); + $1211 = tempRet0; + $1212 = (_bitshift64Shl(($1208|0),($1209|0),21)|0); + $1213 = tempRet0; + $1214 = (_i64Subtract(($1158|0),($1159|0),($1212|0),($1213|0))|0); + $1215 = tempRet0; + $1216 = (___muldi3(($1168|0),($1169|0),666643,0)|0); + $1217 = tempRet0; + $1218 = (_i64Add(($880|0),($881|0),($1216|0),($1217|0))|0); + $1219 = tempRet0; + $1220 = (___muldi3(($1168|0),($1169|0),470296,0)|0); + $1221 = tempRet0; + $1222 = (___muldi3(($1168|0),($1169|0),654183,0)|0); + $1223 = tempRet0; + $1224 = (___muldi3(($1168|0),($1169|0),-997805,-1)|0); + $1225 = tempRet0; + $1226 = (___muldi3(($1168|0),($1169|0),136657,0)|0); + $1227 = tempRet0; + $1228 = (___muldi3(($1168|0),($1169|0),-683901,-1)|0); + $1229 = tempRet0; + $1230 = (_i64Add(($1070|0),($1071|0),($1228|0),($1229|0))|0); + $1231 = tempRet0; + $1232 = (_i64Subtract(($1230|0),($1231|0),($1126|0),($1127|0))|0); + $1233 = tempRet0; + $1234 = (_i64Add(($1232|0),($1233|0),($1182|0),($1183|0))|0); + $1235 = tempRet0; + $1236 = (___muldi3(($1210|0),($1211|0),666643,0)|0); + $1237 = tempRet0; + $1238 = (_i64Add(($868|0),($869|0),($1236|0),($1237|0))|0); + $1239 = tempRet0; + $1240 = (___muldi3(($1210|0),($1211|0),470296,0)|0); + $1241 = tempRet0; + $1242 = (_i64Add(($1218|0),($1219|0),($1240|0),($1241|0))|0); + $1243 = tempRet0; + $1244 = (___muldi3(($1210|0),($1211|0),654183,0)|0); + $1245 = tempRet0; + $1246 = (___muldi3(($1210|0),($1211|0),-997805,-1)|0); + $1247 = tempRet0; + $1248 = (___muldi3(($1210|0),($1211|0),136657,0)|0); + $1249 = tempRet0; + $1250 = (___muldi3(($1210|0),($1211|0),-683901,-1)|0); + $1251 = tempRet0; + $1252 = (___muldi3(($1214|0),($1215|0),666643,0)|0); + $1253 = tempRet0; + $1254 = (_i64Add(($872|0),($873|0),($1252|0),($1253|0))|0); + $1255 = tempRet0; + $1256 = (___muldi3(($1214|0),($1215|0),470296,0)|0); + $1257 = tempRet0; + $1258 = (_i64Add(($1238|0),($1239|0),($1256|0),($1257|0))|0); + $1259 = tempRet0; + $1260 = (___muldi3(($1214|0),($1215|0),654183,0)|0); + $1261 = tempRet0; + $1262 = (_i64Add(($1242|0),($1243|0),($1260|0),($1261|0))|0); + $1263 = tempRet0; + $1264 = (___muldi3(($1214|0),($1215|0),-997805,-1)|0); + $1265 = tempRet0; + $1266 = (___muldi3(($1214|0),($1215|0),136657,0)|0); + $1267 = tempRet0; + $1268 = (___muldi3(($1214|0),($1215|0),-683901,-1)|0); + $1269 = tempRet0; + $1270 = (_i64Add(($1052|0),($1053|0),($1224|0),($1225|0))|0); + $1271 = tempRet0; + $1272 = (_i64Subtract(($1270|0),($1271|0),($1104|0),($1105|0))|0); + $1273 = tempRet0; + $1274 = (_i64Add(($1272|0),($1273|0),($1176|0),($1177|0))|0); + $1275 = tempRet0; + $1276 = (_i64Add(($1274|0),($1275|0),($1248|0),($1249|0))|0); + $1277 = tempRet0; + $1278 = (_i64Add(($1276|0),($1277|0),($1268|0),($1269|0))|0); + $1279 = tempRet0; + $1280 = (___muldi3(($1200|0),($1201|0),666643,0)|0); + $1281 = tempRet0; + $1282 = (___muldi3(($1200|0),($1201|0),470296,0)|0); + $1283 = tempRet0; + $1284 = (___muldi3(($1200|0),($1201|0),654183,0)|0); + $1285 = tempRet0; + $1286 = (___muldi3(($1200|0),($1201|0),-997805,-1)|0); + $1287 = tempRet0; + $1288 = (___muldi3(($1200|0),($1201|0),136657,0)|0); + $1289 = tempRet0; + $1290 = (___muldi3(($1200|0),($1201|0),-683901,-1)|0); + $1291 = tempRet0; + $1292 = (___muldi3(($1204|0),($1205|0),666643,0)|0); + $1293 = tempRet0; + $1294 = (___muldi3(($1204|0),($1205|0),470296,0)|0); + $1295 = tempRet0; + $1296 = (___muldi3(($1204|0),($1205|0),654183,0)|0); + $1297 = tempRet0; + $1298 = (___muldi3(($1204|0),($1205|0),-997805,-1)|0); + $1299 = tempRet0; + $1300 = (___muldi3(($1204|0),($1205|0),136657,0)|0); + $1301 = tempRet0; + $1302 = (___muldi3(($1204|0),($1205|0),-683901,-1)|0); + $1303 = tempRet0; + $1304 = (_i64Add(($1038|0),($1039|0),($1220|0),($1221|0))|0); + $1305 = tempRet0; + $1306 = (_i64Subtract(($1304|0),($1305|0),($1086|0),($1087|0))|0); + $1307 = tempRet0; + $1308 = (_i64Add(($1306|0),($1307|0),($1244|0),($1245|0))|0); + $1309 = tempRet0; + $1310 = (_i64Add(($1308|0),($1309|0),($1264|0),($1265|0))|0); + $1311 = tempRet0; + $1312 = (_i64Add(($1310|0),($1311|0),($1288|0),($1289|0))|0); + $1313 = tempRet0; + $1314 = (_i64Add(($1312|0),($1313|0),($1302|0),($1303|0))|0); + $1315 = tempRet0; + $1316 = (___muldi3(($1190|0),($1191|0),666643,0)|0); + $1317 = tempRet0; + $1318 = (_i64Add(($1316|0),($1317|0),($632|0),($633|0))|0); + $1319 = tempRet0; + $1320 = (___muldi3(($1190|0),($1191|0),470296,0)|0); + $1321 = tempRet0; + $1322 = (___muldi3(($1190|0),($1191|0),654183,0)|0); + $1323 = tempRet0; + $1324 = (_i64Add(($858|0),($859|0),($216|0),($217|0))|0); + $1325 = tempRet0; + $1326 = (_i64Subtract(($1324|0),($1325|0),($648|0),($649|0))|0); + $1327 = tempRet0; + $1328 = (_i64Add(($1326|0),($1327|0),($1322|0),($1323|0))|0); + $1329 = tempRet0; + $1330 = (_i64Add(($1328|0),($1329|0),($1280|0),($1281|0))|0); + $1331 = tempRet0; + $1332 = (_i64Add(($1330|0),($1331|0),($1294|0),($1295|0))|0); + $1333 = tempRet0; + $1334 = (___muldi3(($1190|0),($1191|0),-997805,-1)|0); + $1335 = tempRet0; + $1336 = (___muldi3(($1190|0),($1191|0),136657,0)|0); + $1337 = tempRet0; + $1338 = (_i64Add(($1258|0),($1259|0),($1336|0),($1337|0))|0); + $1339 = tempRet0; + $1340 = (_i64Add(($1338|0),($1339|0),($1284|0),($1285|0))|0); + $1341 = tempRet0; + $1342 = (_i64Add(($1340|0),($1341|0),($1298|0),($1299|0))|0); + $1343 = tempRet0; + $1344 = (___muldi3(($1190|0),($1191|0),-683901,-1)|0); + $1345 = tempRet0; + $1346 = (_i64Add(($1318|0),($1319|0),1048576,0)|0); + $1347 = tempRet0; + $1348 = (_bitshift64Ashr(($1346|0),($1347|0),21)|0); + $1349 = tempRet0; + $1350 = (_i64Add(($862|0),($863|0),($1320|0),($1321|0))|0); + $1351 = tempRet0; + $1352 = (_i64Add(($1350|0),($1351|0),($1292|0),($1293|0))|0); + $1353 = tempRet0; + $1354 = (_i64Add(($1352|0),($1353|0),($1348|0),($1349|0))|0); + $1355 = tempRet0; + $1356 = (_bitshift64Shl(($1348|0),($1349|0),21)|0); + $1357 = tempRet0; + $1358 = (_i64Subtract(($1318|0),($1319|0),($1356|0),($1357|0))|0); + $1359 = tempRet0; + $1360 = (_i64Add(($1332|0),($1333|0),1048576,0)|0); + $1361 = tempRet0; + $1362 = (_bitshift64Ashr(($1360|0),($1361|0),21)|0); + $1363 = tempRet0; + $1364 = (_i64Add(($1254|0),($1255|0),($1334|0),($1335|0))|0); + $1365 = tempRet0; + $1366 = (_i64Add(($1364|0),($1365|0),($1282|0),($1283|0))|0); + $1367 = tempRet0; + $1368 = (_i64Add(($1366|0),($1367|0),($1296|0),($1297|0))|0); + $1369 = tempRet0; + $1370 = (_i64Add(($1368|0),($1369|0),($1362|0),($1363|0))|0); + $1371 = tempRet0; + $1372 = (_bitshift64Shl(($1362|0),($1363|0),21)|0); + $1373 = tempRet0; + $1374 = (_i64Add(($1342|0),($1343|0),1048576,0)|0); + $1375 = tempRet0; + $1376 = (_bitshift64Ashr(($1374|0),($1375|0),21)|0); + $1377 = tempRet0; + $1378 = (_i64Add(($1262|0),($1263|0),($1344|0),($1345|0))|0); + $1379 = tempRet0; + $1380 = (_i64Add(($1378|0),($1379|0),($1286|0),($1287|0))|0); + $1381 = tempRet0; + $1382 = (_i64Add(($1380|0),($1381|0),($1300|0),($1301|0))|0); + $1383 = tempRet0; + $1384 = (_i64Add(($1382|0),($1383|0),($1376|0),($1377|0))|0); + $1385 = tempRet0; + $1386 = (_bitshift64Shl(($1376|0),($1377|0),21)|0); + $1387 = tempRet0; + $1388 = (_i64Add(($1314|0),($1315|0),1048576,0)|0); + $1389 = tempRet0; + $1390 = (_bitshift64Ashr(($1388|0),($1389|0),21)|0); + $1391 = tempRet0; + $1392 = (_i64Add(($1084|0),($1085|0),($1222|0),($1223|0))|0); + $1393 = tempRet0; + $1394 = (_i64Add(($1392|0),($1393|0),($1246|0),($1247|0))|0); + $1395 = tempRet0; + $1396 = (_i64Subtract(($1394|0),($1395|0),($1178|0),($1179|0))|0); + $1397 = tempRet0; + $1398 = (_i64Add(($1396|0),($1397|0),($1266|0),($1267|0))|0); + $1399 = tempRet0; + $1400 = (_i64Add(($1398|0),($1399|0),($1290|0),($1291|0))|0); + $1401 = tempRet0; + $1402 = (_i64Add(($1400|0),($1401|0),($1390|0),($1391|0))|0); + $1403 = tempRet0; + $1404 = (_bitshift64Shl(($1390|0),($1391|0),21)|0); + $1405 = tempRet0; + $1406 = (_i64Subtract(($1314|0),($1315|0),($1404|0),($1405|0))|0); + $1407 = tempRet0; + $1408 = (_i64Add(($1278|0),($1279|0),1048576,0)|0); + $1409 = tempRet0; + $1410 = (_bitshift64Ashr(($1408|0),($1409|0),21)|0); + $1411 = tempRet0; + $1412 = (_i64Add(($1102|0),($1103|0),($1226|0),($1227|0))|0); + $1413 = tempRet0; + $1414 = (_i64Add(($1412|0),($1413|0),($1250|0),($1251|0))|0); + $1415 = tempRet0; + $1416 = (_i64Subtract(($1414|0),($1415|0),($1184|0),($1185|0))|0); + $1417 = tempRet0; + $1418 = (_i64Add(($1416|0),($1417|0),($1410|0),($1411|0))|0); + $1419 = tempRet0; + $1420 = (_bitshift64Shl(($1410|0),($1411|0),21)|0); + $1421 = tempRet0; + $1422 = (_i64Subtract(($1278|0),($1279|0),($1420|0),($1421|0))|0); + $1423 = tempRet0; + $1424 = (_i64Add(($1234|0),($1235|0),1048576,0)|0); + $1425 = tempRet0; + $1426 = (_bitshift64Ashr(($1424|0),($1425|0),21)|0); + $1427 = tempRet0; + $1428 = (_i64Add(($1194|0),($1195|0),($1426|0),($1427|0))|0); + $1429 = tempRet0; + $1430 = (_bitshift64Shl(($1426|0),($1427|0),21)|0); + $1431 = tempRet0; + $1432 = (_i64Subtract(($1234|0),($1235|0),($1430|0),($1431|0))|0); + $1433 = tempRet0; + $1434 = (_i64Add(($1354|0),($1355|0),1048576,0)|0); + $1435 = tempRet0; + $1436 = (_bitshift64Ashr(($1434|0),($1435|0),21)|0); + $1437 = tempRet0; + $1438 = (_bitshift64Shl(($1436|0),($1437|0),21)|0); + $1439 = tempRet0; + $1440 = (_i64Add(($1370|0),($1371|0),1048576,0)|0); + $1441 = tempRet0; + $1442 = (_bitshift64Ashr(($1440|0),($1441|0),21)|0); + $1443 = tempRet0; + $1444 = (_bitshift64Shl(($1442|0),($1443|0),21)|0); + $1445 = tempRet0; + $1446 = (_i64Add(($1384|0),($1385|0),1048576,0)|0); + $1447 = tempRet0; + $1448 = (_bitshift64Ashr(($1446|0),($1447|0),21)|0); + $1449 = tempRet0; + $1450 = (_i64Add(($1406|0),($1407|0),($1448|0),($1449|0))|0); + $1451 = tempRet0; + $1452 = (_bitshift64Shl(($1448|0),($1449|0),21)|0); + $1453 = tempRet0; + $1454 = (_i64Add(($1402|0),($1403|0),1048576,0)|0); + $1455 = tempRet0; + $1456 = (_bitshift64Ashr(($1454|0),($1455|0),21)|0); + $1457 = tempRet0; + $1458 = (_i64Add(($1422|0),($1423|0),($1456|0),($1457|0))|0); + $1459 = tempRet0; + $1460 = (_bitshift64Shl(($1456|0),($1457|0),21)|0); + $1461 = tempRet0; + $1462 = (_i64Subtract(($1402|0),($1403|0),($1460|0),($1461|0))|0); + $1463 = tempRet0; + $1464 = (_i64Add(($1418|0),($1419|0),1048576,0)|0); + $1465 = tempRet0; + $1466 = (_bitshift64Ashr(($1464|0),($1465|0),21)|0); + $1467 = tempRet0; + $1468 = (_i64Add(($1432|0),($1433|0),($1466|0),($1467|0))|0); + $1469 = tempRet0; + $1470 = (_bitshift64Shl(($1466|0),($1467|0),21)|0); + $1471 = tempRet0; + $1472 = (_i64Subtract(($1418|0),($1419|0),($1470|0),($1471|0))|0); + $1473 = tempRet0; + $1474 = (_i64Add(($1428|0),($1429|0),1048576,0)|0); + $1475 = tempRet0; + $1476 = (_bitshift64Ashr(($1474|0),($1475|0),21)|0); + $1477 = tempRet0; + $1478 = (_bitshift64Shl(($1476|0),($1477|0),21)|0); + $1479 = tempRet0; + $1480 = (_i64Subtract(($1428|0),($1429|0),($1478|0),($1479|0))|0); + $1481 = tempRet0; + $1482 = (___muldi3(($1476|0),($1477|0),666643,0)|0); + $1483 = tempRet0; + $1484 = (_i64Add(($1358|0),($1359|0),($1482|0),($1483|0))|0); + $1485 = tempRet0; + $1486 = (___muldi3(($1476|0),($1477|0),470296,0)|0); + $1487 = tempRet0; + $1488 = (___muldi3(($1476|0),($1477|0),654183,0)|0); + $1489 = tempRet0; + $1490 = (___muldi3(($1476|0),($1477|0),-997805,-1)|0); + $1491 = tempRet0; + $1492 = (___muldi3(($1476|0),($1477|0),136657,0)|0); + $1493 = tempRet0; + $1494 = (___muldi3(($1476|0),($1477|0),-683901,-1)|0); + $1495 = tempRet0; + $1496 = (_bitshift64Ashr(($1484|0),($1485|0),21)|0); + $1497 = tempRet0; + $1498 = (_i64Add(($1486|0),($1487|0),($1354|0),($1355|0))|0); + $1499 = tempRet0; + $1500 = (_i64Subtract(($1498|0),($1499|0),($1438|0),($1439|0))|0); + $1501 = tempRet0; + $1502 = (_i64Add(($1500|0),($1501|0),($1496|0),($1497|0))|0); + $1503 = tempRet0; + $1504 = (_bitshift64Shl(($1496|0),($1497|0),21)|0); + $1505 = tempRet0; + $1506 = (_i64Subtract(($1484|0),($1485|0),($1504|0),($1505|0))|0); + $1507 = tempRet0; + $1508 = (_bitshift64Ashr(($1502|0),($1503|0),21)|0); + $1509 = tempRet0; + $1510 = (_i64Add(($1488|0),($1489|0),($1332|0),($1333|0))|0); + $1511 = tempRet0; + $1512 = (_i64Subtract(($1510|0),($1511|0),($1372|0),($1373|0))|0); + $1513 = tempRet0; + $1514 = (_i64Add(($1512|0),($1513|0),($1436|0),($1437|0))|0); + $1515 = tempRet0; + $1516 = (_i64Add(($1514|0),($1515|0),($1508|0),($1509|0))|0); + $1517 = tempRet0; + $1518 = (_bitshift64Shl(($1508|0),($1509|0),21)|0); + $1519 = tempRet0; + $1520 = (_i64Subtract(($1502|0),($1503|0),($1518|0),($1519|0))|0); + $1521 = tempRet0; + $1522 = (_bitshift64Ashr(($1516|0),($1517|0),21)|0); + $1523 = tempRet0; + $1524 = (_i64Add(($1370|0),($1371|0),($1490|0),($1491|0))|0); + $1525 = tempRet0; + $1526 = (_i64Subtract(($1524|0),($1525|0),($1444|0),($1445|0))|0); + $1527 = tempRet0; + $1528 = (_i64Add(($1526|0),($1527|0),($1522|0),($1523|0))|0); + $1529 = tempRet0; + $1530 = (_bitshift64Shl(($1522|0),($1523|0),21)|0); + $1531 = tempRet0; + $1532 = (_i64Subtract(($1516|0),($1517|0),($1530|0),($1531|0))|0); + $1533 = tempRet0; + $1534 = (_bitshift64Ashr(($1528|0),($1529|0),21)|0); + $1535 = tempRet0; + $1536 = (_i64Add(($1492|0),($1493|0),($1342|0),($1343|0))|0); + $1537 = tempRet0; + $1538 = (_i64Subtract(($1536|0),($1537|0),($1386|0),($1387|0))|0); + $1539 = tempRet0; + $1540 = (_i64Add(($1538|0),($1539|0),($1442|0),($1443|0))|0); + $1541 = tempRet0; + $1542 = (_i64Add(($1540|0),($1541|0),($1534|0),($1535|0))|0); + $1543 = tempRet0; + $1544 = (_bitshift64Shl(($1534|0),($1535|0),21)|0); + $1545 = tempRet0; + $1546 = (_i64Subtract(($1528|0),($1529|0),($1544|0),($1545|0))|0); + $1547 = tempRet0; + $1548 = (_bitshift64Ashr(($1542|0),($1543|0),21)|0); + $1549 = tempRet0; + $1550 = (_i64Add(($1384|0),($1385|0),($1494|0),($1495|0))|0); + $1551 = tempRet0; + $1552 = (_i64Subtract(($1550|0),($1551|0),($1452|0),($1453|0))|0); + $1553 = tempRet0; + $1554 = (_i64Add(($1552|0),($1553|0),($1548|0),($1549|0))|0); + $1555 = tempRet0; + $1556 = (_bitshift64Shl(($1548|0),($1549|0),21)|0); + $1557 = tempRet0; + $1558 = (_i64Subtract(($1542|0),($1543|0),($1556|0),($1557|0))|0); + $1559 = tempRet0; + $1560 = (_bitshift64Ashr(($1554|0),($1555|0),21)|0); + $1561 = tempRet0; + $1562 = (_i64Add(($1450|0),($1451|0),($1560|0),($1561|0))|0); + $1563 = tempRet0; + $1564 = (_bitshift64Shl(($1560|0),($1561|0),21)|0); + $1565 = tempRet0; + $1566 = (_i64Subtract(($1554|0),($1555|0),($1564|0),($1565|0))|0); + $1567 = tempRet0; + $1568 = (_bitshift64Ashr(($1562|0),($1563|0),21)|0); + $1569 = tempRet0; + $1570 = (_i64Add(($1568|0),($1569|0),($1462|0),($1463|0))|0); + $1571 = tempRet0; + $1572 = (_bitshift64Shl(($1568|0),($1569|0),21)|0); + $1573 = tempRet0; + $1574 = (_i64Subtract(($1562|0),($1563|0),($1572|0),($1573|0))|0); + $1575 = tempRet0; + $1576 = (_bitshift64Ashr(($1570|0),($1571|0),21)|0); + $1577 = tempRet0; + $1578 = (_i64Add(($1458|0),($1459|0),($1576|0),($1577|0))|0); + $1579 = tempRet0; + $1580 = (_bitshift64Shl(($1576|0),($1577|0),21)|0); + $1581 = tempRet0; + $1582 = (_i64Subtract(($1570|0),($1571|0),($1580|0),($1581|0))|0); + $1583 = tempRet0; + $1584 = (_bitshift64Ashr(($1578|0),($1579|0),21)|0); + $1585 = tempRet0; + $1586 = (_i64Add(($1584|0),($1585|0),($1472|0),($1473|0))|0); + $1587 = tempRet0; + $1588 = (_bitshift64Shl(($1584|0),($1585|0),21)|0); + $1589 = tempRet0; + $1590 = (_i64Subtract(($1578|0),($1579|0),($1588|0),($1589|0))|0); + $1591 = tempRet0; + $1592 = (_bitshift64Ashr(($1586|0),($1587|0),21)|0); + $1593 = tempRet0; + $1594 = (_i64Add(($1468|0),($1469|0),($1592|0),($1593|0))|0); + $1595 = tempRet0; + $1596 = (_bitshift64Shl(($1592|0),($1593|0),21)|0); + $1597 = tempRet0; + $1598 = (_i64Subtract(($1586|0),($1587|0),($1596|0),($1597|0))|0); + $1599 = tempRet0; + $1600 = (_bitshift64Ashr(($1594|0),($1595|0),21)|0); + $1601 = tempRet0; + $1602 = (_i64Add(($1600|0),($1601|0),($1480|0),($1481|0))|0); + $1603 = tempRet0; + $1604 = (_bitshift64Shl(($1600|0),($1601|0),21)|0); + $1605 = tempRet0; + $1606 = (_i64Subtract(($1594|0),($1595|0),($1604|0),($1605|0))|0); + $1607 = tempRet0; + $1608 = (_bitshift64Ashr(($1602|0),($1603|0),21)|0); + $1609 = tempRet0; + $1610 = (_bitshift64Shl(($1608|0),($1609|0),21)|0); + $1611 = tempRet0; + $1612 = (_i64Subtract(($1602|0),($1603|0),($1610|0),($1611|0))|0); + $1613 = tempRet0; + $1614 = (___muldi3(($1608|0),($1609|0),666643,0)|0); + $1615 = tempRet0; + $1616 = (_i64Add(($1614|0),($1615|0),($1506|0),($1507|0))|0); + $1617 = tempRet0; + $1618 = (___muldi3(($1608|0),($1609|0),470296,0)|0); + $1619 = tempRet0; + $1620 = (_i64Add(($1520|0),($1521|0),($1618|0),($1619|0))|0); + $1621 = tempRet0; + $1622 = (___muldi3(($1608|0),($1609|0),654183,0)|0); + $1623 = tempRet0; + $1624 = (_i64Add(($1532|0),($1533|0),($1622|0),($1623|0))|0); + $1625 = tempRet0; + $1626 = (___muldi3(($1608|0),($1609|0),-997805,-1)|0); + $1627 = tempRet0; + $1628 = (_i64Add(($1546|0),($1547|0),($1626|0),($1627|0))|0); + $1629 = tempRet0; + $1630 = (___muldi3(($1608|0),($1609|0),136657,0)|0); + $1631 = tempRet0; + $1632 = (_i64Add(($1558|0),($1559|0),($1630|0),($1631|0))|0); + $1633 = tempRet0; + $1634 = (___muldi3(($1608|0),($1609|0),-683901,-1)|0); + $1635 = tempRet0; + $1636 = (_i64Add(($1566|0),($1567|0),($1634|0),($1635|0))|0); + $1637 = tempRet0; + $1638 = (_bitshift64Ashr(($1616|0),($1617|0),21)|0); + $1639 = tempRet0; + $1640 = (_i64Add(($1620|0),($1621|0),($1638|0),($1639|0))|0); + $1641 = tempRet0; + $1642 = (_bitshift64Shl(($1638|0),($1639|0),21)|0); + $1643 = tempRet0; + $1644 = (_i64Subtract(($1616|0),($1617|0),($1642|0),($1643|0))|0); + $1645 = tempRet0; + $1646 = (_bitshift64Ashr(($1640|0),($1641|0),21)|0); + $1647 = tempRet0; + $1648 = (_i64Add(($1624|0),($1625|0),($1646|0),($1647|0))|0); + $1649 = tempRet0; + $1650 = (_bitshift64Shl(($1646|0),($1647|0),21)|0); + $1651 = tempRet0; + $1652 = (_i64Subtract(($1640|0),($1641|0),($1650|0),($1651|0))|0); + $1653 = tempRet0; + $1654 = (_bitshift64Ashr(($1648|0),($1649|0),21)|0); + $1655 = tempRet0; + $1656 = (_i64Add(($1628|0),($1629|0),($1654|0),($1655|0))|0); + $1657 = tempRet0; + $1658 = (_bitshift64Shl(($1654|0),($1655|0),21)|0); + $1659 = tempRet0; + $1660 = (_i64Subtract(($1648|0),($1649|0),($1658|0),($1659|0))|0); + $1661 = tempRet0; + $1662 = (_bitshift64Ashr(($1656|0),($1657|0),21)|0); + $1663 = tempRet0; + $1664 = (_i64Add(($1632|0),($1633|0),($1662|0),($1663|0))|0); + $1665 = tempRet0; + $1666 = (_bitshift64Shl(($1662|0),($1663|0),21)|0); + $1667 = tempRet0; + $1668 = (_i64Subtract(($1656|0),($1657|0),($1666|0),($1667|0))|0); + $1669 = tempRet0; + $1670 = (_bitshift64Ashr(($1664|0),($1665|0),21)|0); + $1671 = tempRet0; + $1672 = (_i64Add(($1636|0),($1637|0),($1670|0),($1671|0))|0); + $1673 = tempRet0; + $1674 = (_bitshift64Shl(($1670|0),($1671|0),21)|0); + $1675 = tempRet0; + $1676 = (_i64Subtract(($1664|0),($1665|0),($1674|0),($1675|0))|0); + $1677 = tempRet0; + $1678 = (_bitshift64Ashr(($1672|0),($1673|0),21)|0); + $1679 = tempRet0; + $1680 = (_i64Add(($1678|0),($1679|0),($1574|0),($1575|0))|0); + $1681 = tempRet0; + $1682 = (_bitshift64Shl(($1678|0),($1679|0),21)|0); + $1683 = tempRet0; + $1684 = (_i64Subtract(($1672|0),($1673|0),($1682|0),($1683|0))|0); + $1685 = tempRet0; + $1686 = (_bitshift64Ashr(($1680|0),($1681|0),21)|0); + $1687 = tempRet0; + $1688 = (_i64Add(($1686|0),($1687|0),($1582|0),($1583|0))|0); + $1689 = tempRet0; + $1690 = (_bitshift64Shl(($1686|0),($1687|0),21)|0); + $1691 = tempRet0; + $1692 = (_i64Subtract(($1680|0),($1681|0),($1690|0),($1691|0))|0); + $1693 = tempRet0; + $1694 = (_bitshift64Ashr(($1688|0),($1689|0),21)|0); + $1695 = tempRet0; + $1696 = (_i64Add(($1694|0),($1695|0),($1590|0),($1591|0))|0); + $1697 = tempRet0; + $1698 = (_bitshift64Shl(($1694|0),($1695|0),21)|0); + $1699 = tempRet0; + $1700 = (_i64Subtract(($1688|0),($1689|0),($1698|0),($1699|0))|0); + $1701 = tempRet0; + $1702 = (_bitshift64Ashr(($1696|0),($1697|0),21)|0); + $1703 = tempRet0; + $1704 = (_i64Add(($1702|0),($1703|0),($1598|0),($1599|0))|0); + $1705 = tempRet0; + $1706 = (_bitshift64Shl(($1702|0),($1703|0),21)|0); + $1707 = tempRet0; + $1708 = (_i64Subtract(($1696|0),($1697|0),($1706|0),($1707|0))|0); + $1709 = tempRet0; + $1710 = (_bitshift64Ashr(($1704|0),($1705|0),21)|0); + $1711 = tempRet0; + $1712 = (_i64Add(($1710|0),($1711|0),($1606|0),($1607|0))|0); + $1713 = tempRet0; + $1714 = (_bitshift64Shl(($1710|0),($1711|0),21)|0); + $1715 = tempRet0; + $1716 = (_i64Subtract(($1704|0),($1705|0),($1714|0),($1715|0))|0); + $1717 = tempRet0; + $1718 = (_bitshift64Ashr(($1712|0),($1713|0),21)|0); + $1719 = tempRet0; + $1720 = (_i64Add(($1718|0),($1719|0),($1612|0),($1613|0))|0); + $1721 = tempRet0; + $1722 = (_bitshift64Shl(($1718|0),($1719|0),21)|0); + $1723 = tempRet0; + $1724 = (_i64Subtract(($1712|0),($1713|0),($1722|0),($1723|0))|0); + $1725 = tempRet0; + $1726 = $1644&255; + HEAP8[$s>>0] = $1726; + $1727 = (_bitshift64Lshr(($1644|0),($1645|0),8)|0); + $1728 = tempRet0; + $1729 = $1727&255; + $1730 = (($s) + 1|0); + HEAP8[$1730>>0] = $1729; + $1731 = (_bitshift64Lshr(($1644|0),($1645|0),16)|0); + $1732 = tempRet0; + $1733 = (_bitshift64Shl(($1652|0),($1653|0),5)|0); + $1734 = tempRet0; + $1735 = $1733 | $1731; + $1734 | $1732; + $1736 = $1735&255; + $1737 = (($s) + 2|0); + HEAP8[$1737>>0] = $1736; + $1738 = (_bitshift64Lshr(($1652|0),($1653|0),3)|0); + $1739 = tempRet0; + $1740 = $1738&255; + $1741 = (($s) + 3|0); + HEAP8[$1741>>0] = $1740; + $1742 = (_bitshift64Lshr(($1652|0),($1653|0),11)|0); + $1743 = tempRet0; + $1744 = $1742&255; + $1745 = (($s) + 4|0); + HEAP8[$1745>>0] = $1744; + $1746 = (_bitshift64Lshr(($1652|0),($1653|0),19)|0); + $1747 = tempRet0; + $1748 = (_bitshift64Shl(($1660|0),($1661|0),2)|0); + $1749 = tempRet0; + $1750 = $1748 | $1746; + $1749 | $1747; + $1751 = $1750&255; + $1752 = (($s) + 5|0); + HEAP8[$1752>>0] = $1751; + $1753 = (_bitshift64Lshr(($1660|0),($1661|0),6)|0); + $1754 = tempRet0; + $1755 = $1753&255; + $1756 = (($s) + 6|0); + HEAP8[$1756>>0] = $1755; + $1757 = (_bitshift64Lshr(($1660|0),($1661|0),14)|0); + $1758 = tempRet0; + $1759 = (_bitshift64Shl(($1668|0),($1669|0),7)|0); + $1760 = tempRet0; + $1761 = $1759 | $1757; + $1760 | $1758; + $1762 = $1761&255; + $1763 = (($s) + 7|0); + HEAP8[$1763>>0] = $1762; + $1764 = (_bitshift64Lshr(($1668|0),($1669|0),1)|0); + $1765 = tempRet0; + $1766 = $1764&255; + $1767 = (($s) + 8|0); + HEAP8[$1767>>0] = $1766; + $1768 = (_bitshift64Lshr(($1668|0),($1669|0),9)|0); + $1769 = tempRet0; + $1770 = $1768&255; + $1771 = (($s) + 9|0); + HEAP8[$1771>>0] = $1770; + $1772 = (_bitshift64Lshr(($1668|0),($1669|0),17)|0); + $1773 = tempRet0; + $1774 = (_bitshift64Shl(($1676|0),($1677|0),4)|0); + $1775 = tempRet0; + $1776 = $1774 | $1772; + $1775 | $1773; + $1777 = $1776&255; + $1778 = (($s) + 10|0); + HEAP8[$1778>>0] = $1777; + $1779 = (_bitshift64Lshr(($1676|0),($1677|0),4)|0); + $1780 = tempRet0; + $1781 = $1779&255; + $1782 = (($s) + 11|0); + HEAP8[$1782>>0] = $1781; + $1783 = (_bitshift64Lshr(($1676|0),($1677|0),12)|0); + $1784 = tempRet0; + $1785 = $1783&255; + $1786 = (($s) + 12|0); + HEAP8[$1786>>0] = $1785; + $1787 = (_bitshift64Lshr(($1676|0),($1677|0),20)|0); + $1788 = tempRet0; + $1789 = (_bitshift64Shl(($1684|0),($1685|0),1)|0); + $1790 = tempRet0; + $1791 = $1789 | $1787; + $1790 | $1788; + $1792 = $1791&255; + $1793 = (($s) + 13|0); + HEAP8[$1793>>0] = $1792; + $1794 = (_bitshift64Lshr(($1684|0),($1685|0),7)|0); + $1795 = tempRet0; + $1796 = $1794&255; + $1797 = (($s) + 14|0); + HEAP8[$1797>>0] = $1796; + $1798 = (_bitshift64Lshr(($1684|0),($1685|0),15)|0); + $1799 = tempRet0; + $1800 = (_bitshift64Shl(($1692|0),($1693|0),6)|0); + $1801 = tempRet0; + $1802 = $1800 | $1798; + $1801 | $1799; + $1803 = $1802&255; + $1804 = (($s) + 15|0); + HEAP8[$1804>>0] = $1803; + $1805 = (_bitshift64Lshr(($1692|0),($1693|0),2)|0); + $1806 = tempRet0; + $1807 = $1805&255; + $1808 = (($s) + 16|0); + HEAP8[$1808>>0] = $1807; + $1809 = (_bitshift64Lshr(($1692|0),($1693|0),10)|0); + $1810 = tempRet0; + $1811 = $1809&255; + $1812 = (($s) + 17|0); + HEAP8[$1812>>0] = $1811; + $1813 = (_bitshift64Lshr(($1692|0),($1693|0),18)|0); + $1814 = tempRet0; + $1815 = (_bitshift64Shl(($1700|0),($1701|0),3)|0); + $1816 = tempRet0; + $1817 = $1815 | $1813; + $1816 | $1814; + $1818 = $1817&255; + $1819 = (($s) + 18|0); + HEAP8[$1819>>0] = $1818; + $1820 = (_bitshift64Lshr(($1700|0),($1701|0),5)|0); + $1821 = tempRet0; + $1822 = $1820&255; + $1823 = (($s) + 19|0); + HEAP8[$1823>>0] = $1822; + $1824 = (_bitshift64Lshr(($1700|0),($1701|0),13)|0); + $1825 = tempRet0; + $1826 = $1824&255; + $1827 = (($s) + 20|0); + HEAP8[$1827>>0] = $1826; + $1828 = $1708&255; + $1829 = (($s) + 21|0); + HEAP8[$1829>>0] = $1828; + $1830 = (_bitshift64Lshr(($1708|0),($1709|0),8)|0); + $1831 = tempRet0; + $1832 = $1830&255; + $1833 = (($s) + 22|0); + HEAP8[$1833>>0] = $1832; + $1834 = (_bitshift64Lshr(($1708|0),($1709|0),16)|0); + $1835 = tempRet0; + $1836 = (_bitshift64Shl(($1716|0),($1717|0),5)|0); + $1837 = tempRet0; + $1838 = $1836 | $1834; + $1837 | $1835; + $1839 = $1838&255; + $1840 = (($s) + 23|0); + HEAP8[$1840>>0] = $1839; + $1841 = (_bitshift64Lshr(($1716|0),($1717|0),3)|0); + $1842 = tempRet0; + $1843 = $1841&255; + $1844 = (($s) + 24|0); + HEAP8[$1844>>0] = $1843; + $1845 = (_bitshift64Lshr(($1716|0),($1717|0),11)|0); + $1846 = tempRet0; + $1847 = $1845&255; + $1848 = (($s) + 25|0); + HEAP8[$1848>>0] = $1847; + $1849 = (_bitshift64Lshr(($1716|0),($1717|0),19)|0); + $1850 = tempRet0; + $1851 = (_bitshift64Shl(($1724|0),($1725|0),2)|0); + $1852 = tempRet0; + $1853 = $1851 | $1849; + $1852 | $1850; + $1854 = $1853&255; + $1855 = (($s) + 26|0); + HEAP8[$1855>>0] = $1854; + $1856 = (_bitshift64Lshr(($1724|0),($1725|0),6)|0); + $1857 = tempRet0; + $1858 = $1856&255; + $1859 = (($s) + 27|0); + HEAP8[$1859>>0] = $1858; + $1860 = (_bitshift64Lshr(($1724|0),($1725|0),14)|0); + $1861 = tempRet0; + $1862 = (_bitshift64Shl(($1720|0),($1721|0),7)|0); + $1863 = tempRet0; + $1864 = $1860 | $1862; + $1861 | $1863; + $1865 = $1864&255; + $1866 = (($s) + 28|0); + HEAP8[$1866>>0] = $1865; + $1867 = (_bitshift64Lshr(($1720|0),($1721|0),1)|0); + $1868 = tempRet0; + $1869 = $1867&255; + $1870 = (($s) + 29|0); + HEAP8[$1870>>0] = $1869; + $1871 = (_bitshift64Lshr(($1720|0),($1721|0),9)|0); + $1872 = tempRet0; + $1873 = $1871&255; + $1874 = (($s) + 30|0); + HEAP8[$1874>>0] = $1873; + $1875 = (_bitshift64Lshr(($1720|0),($1721|0),17)|0); + $1876 = tempRet0; + $1877 = $1875&255; + $1878 = (($s) + 31|0); + HEAP8[$1878>>0] = $1877; + STACKTOP = sp;return; +} +function _load_347($in) { + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$in>>0]|0; + $1 = $0&255; + $2 = (($in) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($in) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + tempRet0 = $14; + STACKTOP = sp;return ($13|0); +} +function _load_448($in) { + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0; + var $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$in>>0]|0; + $1 = $0&255; + $2 = (($in) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($in) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + $15 = (($in) + 3|0); + $16 = HEAP8[$15>>0]|0; + $17 = $16&255; + $18 = (_bitshift64Shl(($17|0),0,24)|0); + $19 = tempRet0; + $20 = $13 | $18; + $21 = $14 | $19; + tempRet0 = $21; + STACKTOP = sp;return ($20|0); +} +function _crypto_sign_ed25519_ref10_sc_reduce($s) { + $s = $s|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $1000 = 0, $1001 = 0, $1002 = 0, $1003 = 0, $1004 = 0, $1005 = 0, $1006 = 0, $1007 = 0, $1008 = 0, $1009 = 0, $101 = 0, $1010 = 0, $1011 = 0, $1012 = 0, $1013 = 0, $1014 = 0; + var $1015 = 0, $1016 = 0, $1017 = 0, $1018 = 0, $1019 = 0, $102 = 0, $1020 = 0, $1021 = 0, $1022 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0; + var $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0; + var $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0; + var $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0; + var $168 = 0, $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0; + var $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0; + var $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0; + var $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0; + var $24 = 0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0; + var $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0; + var $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0; + var $294 = 0, $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0; + var $311 = 0, $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0; + var $33 = 0, $330 = 0, $331 = 0, $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0; + var $348 = 0, $349 = 0, $35 = 0, $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0; + var $366 = 0, $367 = 0, $368 = 0, $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0; + var $384 = 0, $385 = 0, $386 = 0, $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0; + var $401 = 0, $402 = 0, $403 = 0, $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0; + var $42 = 0, $420 = 0, $421 = 0, $422 = 0, $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0; + var $438 = 0, $439 = 0, $44 = 0, $440 = 0, $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0; + var $456 = 0, $457 = 0, $458 = 0, $459 = 0, $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0; + var $474 = 0, $475 = 0, $476 = 0, $477 = 0, $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0; + var $492 = 0, $493 = 0, $494 = 0, $495 = 0, $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0; + var $51 = 0, $510 = 0, $511 = 0, $512 = 0, $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0; + var $528 = 0, $529 = 0, $53 = 0, $530 = 0, $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0; + var $546 = 0, $547 = 0, $548 = 0, $549 = 0, $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0, $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0; + var $564 = 0, $565 = 0, $566 = 0, $567 = 0, $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0, $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0; + var $582 = 0, $583 = 0, $584 = 0, $585 = 0, $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0, $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0; + var $60 = 0, $600 = 0, $601 = 0, $602 = 0, $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0, $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0; + var $618 = 0, $619 = 0, $62 = 0, $620 = 0, $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0, $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0; + var $636 = 0, $637 = 0, $638 = 0, $639 = 0, $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0, $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0; + var $654 = 0, $655 = 0, $656 = 0, $657 = 0, $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0, $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0; + var $672 = 0, $673 = 0, $674 = 0, $675 = 0, $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0, $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0; + var $690 = 0, $691 = 0, $692 = 0, $693 = 0, $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0, $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0; + var $708 = 0, $709 = 0, $71 = 0, $710 = 0, $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0, $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0; + var $726 = 0, $727 = 0, $728 = 0, $729 = 0, $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0, $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0; + var $744 = 0, $745 = 0, $746 = 0, $747 = 0, $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0, $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0; + var $762 = 0, $763 = 0, $764 = 0, $765 = 0, $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0, $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0; + var $780 = 0, $781 = 0, $782 = 0, $783 = 0, $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0, $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0; + var $799 = 0, $8 = 0, $80 = 0, $800 = 0, $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0, $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0; + var $816 = 0, $817 = 0, $818 = 0, $819 = 0, $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0, $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0; + var $834 = 0, $835 = 0, $836 = 0, $837 = 0, $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0, $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0; + var $852 = 0, $853 = 0, $854 = 0, $855 = 0, $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0, $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0; + var $870 = 0, $871 = 0, $872 = 0, $873 = 0, $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0, $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0; + var $889 = 0, $89 = 0, $890 = 0, $891 = 0, $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0, $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0; + var $906 = 0, $907 = 0, $908 = 0, $909 = 0, $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0, $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0; + var $924 = 0, $925 = 0, $926 = 0, $927 = 0, $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0, $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0; + var $942 = 0, $943 = 0, $944 = 0, $945 = 0, $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $954 = 0, $955 = 0, $956 = 0, $957 = 0, $958 = 0, $959 = 0, $96 = 0; + var $960 = 0, $961 = 0, $962 = 0, $963 = 0, $964 = 0, $965 = 0, $966 = 0, $967 = 0, $968 = 0, $969 = 0, $97 = 0, $970 = 0, $971 = 0, $972 = 0, $973 = 0, $974 = 0, $975 = 0, $976 = 0, $977 = 0, $978 = 0; + var $979 = 0, $98 = 0, $980 = 0, $981 = 0, $982 = 0, $983 = 0, $984 = 0, $985 = 0, $986 = 0, $987 = 0, $988 = 0, $989 = 0, $99 = 0, $990 = 0, $991 = 0, $992 = 0, $993 = 0, $994 = 0, $995 = 0, $996 = 0; + var $997 = 0, $998 = 0, $999 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (_load_351($s)|0); + $1 = tempRet0; + $2 = $0 & 2097151; + $3 = (($s) + 2|0); + $4 = (_load_452($3)|0); + $5 = tempRet0; + $6 = (_bitshift64Lshr(($4|0),($5|0),5)|0); + $7 = tempRet0; + $8 = $6 & 2097151; + $9 = (($s) + 5|0); + $10 = (_load_351($9)|0); + $11 = tempRet0; + $12 = (_bitshift64Lshr(($10|0),($11|0),2)|0); + $13 = tempRet0; + $14 = $12 & 2097151; + $15 = (($s) + 7|0); + $16 = (_load_452($15)|0); + $17 = tempRet0; + $18 = (_bitshift64Lshr(($16|0),($17|0),7)|0); + $19 = tempRet0; + $20 = $18 & 2097151; + $21 = (($s) + 10|0); + $22 = (_load_452($21)|0); + $23 = tempRet0; + $24 = (_bitshift64Lshr(($22|0),($23|0),4)|0); + $25 = tempRet0; + $26 = $24 & 2097151; + $27 = (($s) + 13|0); + $28 = (_load_351($27)|0); + $29 = tempRet0; + $30 = (_bitshift64Lshr(($28|0),($29|0),1)|0); + $31 = tempRet0; + $32 = $30 & 2097151; + $33 = (($s) + 15|0); + $34 = (_load_452($33)|0); + $35 = tempRet0; + $36 = (_bitshift64Lshr(($34|0),($35|0),6)|0); + $37 = tempRet0; + $38 = $36 & 2097151; + $39 = (($s) + 18|0); + $40 = (_load_351($39)|0); + $41 = tempRet0; + $42 = (_bitshift64Lshr(($40|0),($41|0),3)|0); + $43 = tempRet0; + $44 = $42 & 2097151; + $45 = (($s) + 21|0); + $46 = (_load_351($45)|0); + $47 = tempRet0; + $48 = $46 & 2097151; + $49 = (($s) + 23|0); + $50 = (_load_452($49)|0); + $51 = tempRet0; + $52 = (_bitshift64Lshr(($50|0),($51|0),5)|0); + $53 = tempRet0; + $54 = $52 & 2097151; + $55 = (($s) + 26|0); + $56 = (_load_351($55)|0); + $57 = tempRet0; + $58 = (_bitshift64Lshr(($56|0),($57|0),2)|0); + $59 = tempRet0; + $60 = $58 & 2097151; + $61 = (($s) + 28|0); + $62 = (_load_452($61)|0); + $63 = tempRet0; + $64 = (_bitshift64Lshr(($62|0),($63|0),7)|0); + $65 = tempRet0; + $66 = $64 & 2097151; + $67 = (($s) + 31|0); + $68 = (_load_452($67)|0); + $69 = tempRet0; + $70 = (_bitshift64Lshr(($68|0),($69|0),4)|0); + $71 = tempRet0; + $72 = $70 & 2097151; + $73 = (($s) + 34|0); + $74 = (_load_351($73)|0); + $75 = tempRet0; + $76 = (_bitshift64Lshr(($74|0),($75|0),1)|0); + $77 = tempRet0; + $78 = $76 & 2097151; + $79 = (($s) + 36|0); + $80 = (_load_452($79)|0); + $81 = tempRet0; + $82 = (_bitshift64Lshr(($80|0),($81|0),6)|0); + $83 = tempRet0; + $84 = $82 & 2097151; + $85 = (($s) + 39|0); + $86 = (_load_351($85)|0); + $87 = tempRet0; + $88 = (_bitshift64Lshr(($86|0),($87|0),3)|0); + $89 = tempRet0; + $90 = $88 & 2097151; + $91 = (($s) + 42|0); + $92 = (_load_351($91)|0); + $93 = tempRet0; + $94 = $92 & 2097151; + $95 = (($s) + 44|0); + $96 = (_load_452($95)|0); + $97 = tempRet0; + $98 = (_bitshift64Lshr(($96|0),($97|0),5)|0); + $99 = tempRet0; + $100 = $98 & 2097151; + $101 = (($s) + 47|0); + $102 = (_load_351($101)|0); + $103 = tempRet0; + $104 = (_bitshift64Lshr(($102|0),($103|0),2)|0); + $105 = tempRet0; + $106 = $104 & 2097151; + $107 = (($s) + 49|0); + $108 = (_load_452($107)|0); + $109 = tempRet0; + $110 = (_bitshift64Lshr(($108|0),($109|0),7)|0); + $111 = tempRet0; + $112 = $110 & 2097151; + $113 = (($s) + 52|0); + $114 = (_load_452($113)|0); + $115 = tempRet0; + $116 = (_bitshift64Lshr(($114|0),($115|0),4)|0); + $117 = tempRet0; + $118 = $116 & 2097151; + $119 = (($s) + 55|0); + $120 = (_load_351($119)|0); + $121 = tempRet0; + $122 = (_bitshift64Lshr(($120|0),($121|0),1)|0); + $123 = tempRet0; + $124 = $122 & 2097151; + $125 = (($s) + 57|0); + $126 = (_load_452($125)|0); + $127 = tempRet0; + $128 = (_bitshift64Lshr(($126|0),($127|0),6)|0); + $129 = tempRet0; + $130 = $128 & 2097151; + $131 = (($s) + 60|0); + $132 = (_load_452($131)|0); + $133 = tempRet0; + $134 = (_bitshift64Lshr(($132|0),($133|0),3)|0); + $135 = tempRet0; + $136 = (___muldi3(($134|0),($135|0),666643,0)|0); + $137 = tempRet0; + $138 = (___muldi3(($134|0),($135|0),470296,0)|0); + $139 = tempRet0; + $140 = (___muldi3(($134|0),($135|0),654183,0)|0); + $141 = tempRet0; + $142 = (___muldi3(($134|0),($135|0),-997805,-1)|0); + $143 = tempRet0; + $144 = (___muldi3(($134|0),($135|0),136657,0)|0); + $145 = tempRet0; + $146 = (_i64Add(($144|0),($145|0),($90|0),0)|0); + $147 = tempRet0; + $148 = (___muldi3(($134|0),($135|0),-683901,-1)|0); + $149 = tempRet0; + $150 = (_i64Add(($148|0),($149|0),($94|0),0)|0); + $151 = tempRet0; + $152 = (___muldi3(($130|0),0,666643,0)|0); + $153 = tempRet0; + $154 = (___muldi3(($130|0),0,470296,0)|0); + $155 = tempRet0; + $156 = (___muldi3(($130|0),0,654183,0)|0); + $157 = tempRet0; + $158 = (___muldi3(($130|0),0,-997805,-1)|0); + $159 = tempRet0; + $160 = (___muldi3(($130|0),0,136657,0)|0); + $161 = tempRet0; + $162 = (___muldi3(($130|0),0,-683901,-1)|0); + $163 = tempRet0; + $164 = (_i64Add(($146|0),($147|0),($162|0),($163|0))|0); + $165 = tempRet0; + $166 = (___muldi3(($124|0),0,666643,0)|0); + $167 = tempRet0; + $168 = (___muldi3(($124|0),0,470296,0)|0); + $169 = tempRet0; + $170 = (___muldi3(($124|0),0,654183,0)|0); + $171 = tempRet0; + $172 = (___muldi3(($124|0),0,-997805,-1)|0); + $173 = tempRet0; + $174 = (___muldi3(($124|0),0,136657,0)|0); + $175 = tempRet0; + $176 = (___muldi3(($124|0),0,-683901,-1)|0); + $177 = tempRet0; + $178 = (_i64Add(($176|0),($177|0),($84|0),0)|0); + $179 = tempRet0; + $180 = (_i64Add(($178|0),($179|0),($142|0),($143|0))|0); + $181 = tempRet0; + $182 = (_i64Add(($180|0),($181|0),($160|0),($161|0))|0); + $183 = tempRet0; + $184 = (___muldi3(($118|0),0,666643,0)|0); + $185 = tempRet0; + $186 = (___muldi3(($118|0),0,470296,0)|0); + $187 = tempRet0; + $188 = (___muldi3(($118|0),0,654183,0)|0); + $189 = tempRet0; + $190 = (___muldi3(($118|0),0,-997805,-1)|0); + $191 = tempRet0; + $192 = (___muldi3(($118|0),0,136657,0)|0); + $193 = tempRet0; + $194 = (___muldi3(($118|0),0,-683901,-1)|0); + $195 = tempRet0; + $196 = (___muldi3(($112|0),0,666643,0)|0); + $197 = tempRet0; + $198 = (___muldi3(($112|0),0,470296,0)|0); + $199 = tempRet0; + $200 = (___muldi3(($112|0),0,654183,0)|0); + $201 = tempRet0; + $202 = (___muldi3(($112|0),0,-997805,-1)|0); + $203 = tempRet0; + $204 = (___muldi3(($112|0),0,136657,0)|0); + $205 = tempRet0; + $206 = (___muldi3(($112|0),0,-683901,-1)|0); + $207 = tempRet0; + $208 = (_i64Add(($206|0),($207|0),($72|0),0)|0); + $209 = tempRet0; + $210 = (_i64Add(($208|0),($209|0),($192|0),($193|0))|0); + $211 = tempRet0; + $212 = (_i64Add(($210|0),($211|0),($172|0),($173|0))|0); + $213 = tempRet0; + $214 = (_i64Add(($212|0),($213|0),($138|0),($139|0))|0); + $215 = tempRet0; + $216 = (_i64Add(($214|0),($215|0),($156|0),($157|0))|0); + $217 = tempRet0; + $218 = (___muldi3(($106|0),0,666643,0)|0); + $219 = tempRet0; + $220 = (_i64Add(($218|0),($219|0),($38|0),0)|0); + $221 = tempRet0; + $222 = (___muldi3(($106|0),0,470296,0)|0); + $223 = tempRet0; + $224 = (___muldi3(($106|0),0,654183,0)|0); + $225 = tempRet0; + $226 = (_i64Add(($224|0),($225|0),($48|0),0)|0); + $227 = tempRet0; + $228 = (_i64Add(($226|0),($227|0),($198|0),($199|0))|0); + $229 = tempRet0; + $230 = (_i64Add(($228|0),($229|0),($184|0),($185|0))|0); + $231 = tempRet0; + $232 = (___muldi3(($106|0),0,-997805,-1)|0); + $233 = tempRet0; + $234 = (___muldi3(($106|0),0,136657,0)|0); + $235 = tempRet0; + $236 = (_i64Add(($234|0),($235|0),($60|0),0)|0); + $237 = tempRet0; + $238 = (_i64Add(($236|0),($237|0),($202|0),($203|0))|0); + $239 = tempRet0; + $240 = (_i64Add(($238|0),($239|0),($188|0),($189|0))|0); + $241 = tempRet0; + $242 = (_i64Add(($240|0),($241|0),($168|0),($169|0))|0); + $243 = tempRet0; + $244 = (_i64Add(($242|0),($243|0),($152|0),($153|0))|0); + $245 = tempRet0; + $246 = (___muldi3(($106|0),0,-683901,-1)|0); + $247 = tempRet0; + $248 = (_i64Add(($220|0),($221|0),1048576,0)|0); + $249 = tempRet0; + $250 = (_bitshift64Lshr(($248|0),($249|0),21)|0); + $251 = tempRet0; + $252 = (_i64Add(($222|0),($223|0),($44|0),0)|0); + $253 = tempRet0; + $254 = (_i64Add(($252|0),($253|0),($196|0),($197|0))|0); + $255 = tempRet0; + $256 = (_i64Add(($254|0),($255|0),($250|0),($251|0))|0); + $257 = tempRet0; + $258 = (_bitshift64Shl(($250|0),($251|0),21)|0); + $259 = tempRet0; + $260 = (_i64Subtract(($220|0),($221|0),($258|0),($259|0))|0); + $261 = tempRet0; + $262 = (_i64Add(($230|0),($231|0),1048576,0)|0); + $263 = tempRet0; + $264 = (_bitshift64Lshr(($262|0),($263|0),21)|0); + $265 = tempRet0; + $266 = (_i64Add(($232|0),($233|0),($54|0),0)|0); + $267 = tempRet0; + $268 = (_i64Add(($266|0),($267|0),($200|0),($201|0))|0); + $269 = tempRet0; + $270 = (_i64Add(($268|0),($269|0),($186|0),($187|0))|0); + $271 = tempRet0; + $272 = (_i64Add(($270|0),($271|0),($166|0),($167|0))|0); + $273 = tempRet0; + $274 = (_i64Add(($272|0),($273|0),($264|0),($265|0))|0); + $275 = tempRet0; + $276 = (_bitshift64Shl(($264|0),($265|0),21)|0); + $277 = tempRet0; + $278 = (_i64Subtract(($230|0),($231|0),($276|0),($277|0))|0); + $279 = tempRet0; + $280 = (_i64Add(($244|0),($245|0),1048576,0)|0); + $281 = tempRet0; + $282 = (_bitshift64Ashr(($280|0),($281|0),21)|0); + $283 = tempRet0; + $284 = (_i64Add(($246|0),($247|0),($66|0),0)|0); + $285 = tempRet0; + $286 = (_i64Add(($284|0),($285|0),($204|0),($205|0))|0); + $287 = tempRet0; + $288 = (_i64Add(($286|0),($287|0),($190|0),($191|0))|0); + $289 = tempRet0; + $290 = (_i64Add(($288|0),($289|0),($170|0),($171|0))|0); + $291 = tempRet0; + $292 = (_i64Add(($290|0),($291|0),($136|0),($137|0))|0); + $293 = tempRet0; + $294 = (_i64Add(($292|0),($293|0),($154|0),($155|0))|0); + $295 = tempRet0; + $296 = (_i64Add(($294|0),($295|0),($282|0),($283|0))|0); + $297 = tempRet0; + $298 = (_bitshift64Shl(($282|0),($283|0),21)|0); + $299 = tempRet0; + $300 = (_i64Subtract(($244|0),($245|0),($298|0),($299|0))|0); + $301 = tempRet0; + $302 = (_i64Add(($216|0),($217|0),1048576,0)|0); + $303 = tempRet0; + $304 = (_bitshift64Ashr(($302|0),($303|0),21)|0); + $305 = tempRet0; + $306 = (_i64Add(($194|0),($195|0),($78|0),0)|0); + $307 = tempRet0; + $308 = (_i64Add(($306|0),($307|0),($174|0),($175|0))|0); + $309 = tempRet0; + $310 = (_i64Add(($308|0),($309|0),($140|0),($141|0))|0); + $311 = tempRet0; + $312 = (_i64Add(($310|0),($311|0),($158|0),($159|0))|0); + $313 = tempRet0; + $314 = (_i64Add(($312|0),($313|0),($304|0),($305|0))|0); + $315 = tempRet0; + $316 = (_bitshift64Shl(($304|0),($305|0),21)|0); + $317 = tempRet0; + $318 = (_i64Subtract(($216|0),($217|0),($316|0),($317|0))|0); + $319 = tempRet0; + $320 = (_i64Add(($182|0),($183|0),1048576,0)|0); + $321 = tempRet0; + $322 = (_bitshift64Ashr(($320|0),($321|0),21)|0); + $323 = tempRet0; + $324 = (_i64Add(($164|0),($165|0),($322|0),($323|0))|0); + $325 = tempRet0; + $326 = (_bitshift64Shl(($322|0),($323|0),21)|0); + $327 = tempRet0; + $328 = (_i64Subtract(($182|0),($183|0),($326|0),($327|0))|0); + $329 = tempRet0; + $330 = (_i64Add(($150|0),($151|0),1048576,0)|0); + $331 = tempRet0; + $332 = (_bitshift64Ashr(($330|0),($331|0),21)|0); + $333 = tempRet0; + $334 = (_i64Add(($332|0),($333|0),($100|0),0)|0); + $335 = tempRet0; + $336 = (_bitshift64Shl(($332|0),($333|0),21)|0); + $337 = tempRet0; + $338 = (_i64Subtract(($150|0),($151|0),($336|0),($337|0))|0); + $339 = tempRet0; + $340 = (_i64Add(($256|0),($257|0),1048576,0)|0); + $341 = tempRet0; + $342 = (_bitshift64Lshr(($340|0),($341|0),21)|0); + $343 = tempRet0; + $344 = (_i64Add(($278|0),($279|0),($342|0),($343|0))|0); + $345 = tempRet0; + $346 = (_bitshift64Shl(($342|0),($343|0),21)|0); + $347 = tempRet0; + $348 = (_i64Subtract(($256|0),($257|0),($346|0),($347|0))|0); + $349 = tempRet0; + $350 = (_i64Add(($274|0),($275|0),1048576,0)|0); + $351 = tempRet0; + $352 = (_bitshift64Ashr(($350|0),($351|0),21)|0); + $353 = tempRet0; + $354 = (_i64Add(($300|0),($301|0),($352|0),($353|0))|0); + $355 = tempRet0; + $356 = (_bitshift64Shl(($352|0),($353|0),21)|0); + $357 = tempRet0; + $358 = (_i64Subtract(($274|0),($275|0),($356|0),($357|0))|0); + $359 = tempRet0; + $360 = (_i64Add(($296|0),($297|0),1048576,0)|0); + $361 = tempRet0; + $362 = (_bitshift64Ashr(($360|0),($361|0),21)|0); + $363 = tempRet0; + $364 = (_i64Add(($318|0),($319|0),($362|0),($363|0))|0); + $365 = tempRet0; + $366 = (_bitshift64Shl(($362|0),($363|0),21)|0); + $367 = tempRet0; + $368 = (_i64Subtract(($296|0),($297|0),($366|0),($367|0))|0); + $369 = tempRet0; + $370 = (_i64Add(($314|0),($315|0),1048576,0)|0); + $371 = tempRet0; + $372 = (_bitshift64Ashr(($370|0),($371|0),21)|0); + $373 = tempRet0; + $374 = (_i64Add(($372|0),($373|0),($328|0),($329|0))|0); + $375 = tempRet0; + $376 = (_bitshift64Shl(($372|0),($373|0),21)|0); + $377 = tempRet0; + $378 = (_i64Subtract(($314|0),($315|0),($376|0),($377|0))|0); + $379 = tempRet0; + $380 = (_i64Add(($324|0),($325|0),1048576,0)|0); + $381 = tempRet0; + $382 = (_bitshift64Ashr(($380|0),($381|0),21)|0); + $383 = tempRet0; + $384 = (_i64Add(($382|0),($383|0),($338|0),($339|0))|0); + $385 = tempRet0; + $386 = (_bitshift64Shl(($382|0),($383|0),21)|0); + $387 = tempRet0; + $388 = (_i64Subtract(($324|0),($325|0),($386|0),($387|0))|0); + $389 = tempRet0; + $390 = (___muldi3(($334|0),($335|0),666643,0)|0); + $391 = tempRet0; + $392 = (_i64Add(($390|0),($391|0),($32|0),0)|0); + $393 = tempRet0; + $394 = (___muldi3(($334|0),($335|0),470296,0)|0); + $395 = tempRet0; + $396 = (_i64Add(($260|0),($261|0),($394|0),($395|0))|0); + $397 = tempRet0; + $398 = (___muldi3(($334|0),($335|0),654183,0)|0); + $399 = tempRet0; + $400 = (_i64Add(($348|0),($349|0),($398|0),($399|0))|0); + $401 = tempRet0; + $402 = (___muldi3(($334|0),($335|0),-997805,-1)|0); + $403 = tempRet0; + $404 = (_i64Add(($344|0),($345|0),($402|0),($403|0))|0); + $405 = tempRet0; + $406 = (___muldi3(($334|0),($335|0),136657,0)|0); + $407 = tempRet0; + $408 = (_i64Add(($358|0),($359|0),($406|0),($407|0))|0); + $409 = tempRet0; + $410 = (___muldi3(($334|0),($335|0),-683901,-1)|0); + $411 = tempRet0; + $412 = (_i64Add(($354|0),($355|0),($410|0),($411|0))|0); + $413 = tempRet0; + $414 = (___muldi3(($384|0),($385|0),666643,0)|0); + $415 = tempRet0; + $416 = (___muldi3(($384|0),($385|0),470296,0)|0); + $417 = tempRet0; + $418 = (___muldi3(($384|0),($385|0),654183,0)|0); + $419 = tempRet0; + $420 = (_i64Add(($396|0),($397|0),($418|0),($419|0))|0); + $421 = tempRet0; + $422 = (___muldi3(($384|0),($385|0),-997805,-1)|0); + $423 = tempRet0; + $424 = (_i64Add(($400|0),($401|0),($422|0),($423|0))|0); + $425 = tempRet0; + $426 = (___muldi3(($384|0),($385|0),136657,0)|0); + $427 = tempRet0; + $428 = (_i64Add(($404|0),($405|0),($426|0),($427|0))|0); + $429 = tempRet0; + $430 = (___muldi3(($384|0),($385|0),-683901,-1)|0); + $431 = tempRet0; + $432 = (_i64Add(($408|0),($409|0),($430|0),($431|0))|0); + $433 = tempRet0; + $434 = (___muldi3(($388|0),($389|0),666643,0)|0); + $435 = tempRet0; + $436 = (___muldi3(($388|0),($389|0),470296,0)|0); + $437 = tempRet0; + $438 = (___muldi3(($388|0),($389|0),654183,0)|0); + $439 = tempRet0; + $440 = (___muldi3(($388|0),($389|0),-997805,-1)|0); + $441 = tempRet0; + $442 = (___muldi3(($388|0),($389|0),136657,0)|0); + $443 = tempRet0; + $444 = (___muldi3(($388|0),($389|0),-683901,-1)|0); + $445 = tempRet0; + $446 = (_i64Add(($428|0),($429|0),($444|0),($445|0))|0); + $447 = tempRet0; + $448 = (___muldi3(($374|0),($375|0),666643,0)|0); + $449 = tempRet0; + $450 = (___muldi3(($374|0),($375|0),470296,0)|0); + $451 = tempRet0; + $452 = (___muldi3(($374|0),($375|0),654183,0)|0); + $453 = tempRet0; + $454 = (___muldi3(($374|0),($375|0),-997805,-1)|0); + $455 = tempRet0; + $456 = (___muldi3(($374|0),($375|0),136657,0)|0); + $457 = tempRet0; + $458 = (___muldi3(($374|0),($375|0),-683901,-1)|0); + $459 = tempRet0; + $460 = (___muldi3(($378|0),($379|0),666643,0)|0); + $461 = tempRet0; + $462 = (___muldi3(($378|0),($379|0),470296,0)|0); + $463 = tempRet0; + $464 = (___muldi3(($378|0),($379|0),654183,0)|0); + $465 = tempRet0; + $466 = (___muldi3(($378|0),($379|0),-997805,-1)|0); + $467 = tempRet0; + $468 = (___muldi3(($378|0),($379|0),136657,0)|0); + $469 = tempRet0; + $470 = (___muldi3(($378|0),($379|0),-683901,-1)|0); + $471 = tempRet0; + $472 = (_i64Add(($420|0),($421|0),($456|0),($457|0))|0); + $473 = tempRet0; + $474 = (_i64Add(($472|0),($473|0),($440|0),($441|0))|0); + $475 = tempRet0; + $476 = (_i64Add(($474|0),($475|0),($470|0),($471|0))|0); + $477 = tempRet0; + $478 = (___muldi3(($364|0),($365|0),666643,0)|0); + $479 = tempRet0; + $480 = (_i64Add(($478|0),($479|0),($2|0),0)|0); + $481 = tempRet0; + $482 = (___muldi3(($364|0),($365|0),470296,0)|0); + $483 = tempRet0; + $484 = (___muldi3(($364|0),($365|0),654183,0)|0); + $485 = tempRet0; + $486 = (_i64Add(($484|0),($485|0),($14|0),0)|0); + $487 = tempRet0; + $488 = (_i64Add(($486|0),($487|0),($448|0),($449|0))|0); + $489 = tempRet0; + $490 = (_i64Add(($488|0),($489|0),($462|0),($463|0))|0); + $491 = tempRet0; + $492 = (___muldi3(($364|0),($365|0),-997805,-1)|0); + $493 = tempRet0; + $494 = (___muldi3(($364|0),($365|0),136657,0)|0); + $495 = tempRet0; + $496 = (_i64Add(($494|0),($495|0),($26|0),0)|0); + $497 = tempRet0; + $498 = (_i64Add(($496|0),($497|0),($414|0),($415|0))|0); + $499 = tempRet0; + $500 = (_i64Add(($498|0),($499|0),($452|0),($453|0))|0); + $501 = tempRet0; + $502 = (_i64Add(($500|0),($501|0),($436|0),($437|0))|0); + $503 = tempRet0; + $504 = (_i64Add(($502|0),($503|0),($466|0),($467|0))|0); + $505 = tempRet0; + $506 = (___muldi3(($364|0),($365|0),-683901,-1)|0); + $507 = tempRet0; + $508 = (_i64Add(($480|0),($481|0),1048576,0)|0); + $509 = tempRet0; + $510 = (_bitshift64Ashr(($508|0),($509|0),21)|0); + $511 = tempRet0; + $512 = (_i64Add(($482|0),($483|0),($8|0),0)|0); + $513 = tempRet0; + $514 = (_i64Add(($512|0),($513|0),($460|0),($461|0))|0); + $515 = tempRet0; + $516 = (_i64Add(($514|0),($515|0),($510|0),($511|0))|0); + $517 = tempRet0; + $518 = (_bitshift64Shl(($510|0),($511|0),21)|0); + $519 = tempRet0; + $520 = (_i64Subtract(($480|0),($481|0),($518|0),($519|0))|0); + $521 = tempRet0; + $522 = (_i64Add(($490|0),($491|0),1048576,0)|0); + $523 = tempRet0; + $524 = (_bitshift64Ashr(($522|0),($523|0),21)|0); + $525 = tempRet0; + $526 = (_i64Add(($492|0),($493|0),($20|0),0)|0); + $527 = tempRet0; + $528 = (_i64Add(($526|0),($527|0),($450|0),($451|0))|0); + $529 = tempRet0; + $530 = (_i64Add(($528|0),($529|0),($434|0),($435|0))|0); + $531 = tempRet0; + $532 = (_i64Add(($530|0),($531|0),($464|0),($465|0))|0); + $533 = tempRet0; + $534 = (_i64Add(($532|0),($533|0),($524|0),($525|0))|0); + $535 = tempRet0; + $536 = (_bitshift64Shl(($524|0),($525|0),21)|0); + $537 = tempRet0; + $538 = (_i64Add(($504|0),($505|0),1048576,0)|0); + $539 = tempRet0; + $540 = (_bitshift64Ashr(($538|0),($539|0),21)|0); + $541 = tempRet0; + $542 = (_i64Add(($392|0),($393|0),($506|0),($507|0))|0); + $543 = tempRet0; + $544 = (_i64Add(($542|0),($543|0),($416|0),($417|0))|0); + $545 = tempRet0; + $546 = (_i64Add(($544|0),($545|0),($454|0),($455|0))|0); + $547 = tempRet0; + $548 = (_i64Add(($546|0),($547|0),($438|0),($439|0))|0); + $549 = tempRet0; + $550 = (_i64Add(($548|0),($549|0),($468|0),($469|0))|0); + $551 = tempRet0; + $552 = (_i64Add(($550|0),($551|0),($540|0),($541|0))|0); + $553 = tempRet0; + $554 = (_bitshift64Shl(($540|0),($541|0),21)|0); + $555 = tempRet0; + $556 = (_i64Add(($476|0),($477|0),1048576,0)|0); + $557 = tempRet0; + $558 = (_bitshift64Ashr(($556|0),($557|0),21)|0); + $559 = tempRet0; + $560 = (_i64Add(($424|0),($425|0),($458|0),($459|0))|0); + $561 = tempRet0; + $562 = (_i64Add(($560|0),($561|0),($442|0),($443|0))|0); + $563 = tempRet0; + $564 = (_i64Add(($562|0),($563|0),($558|0),($559|0))|0); + $565 = tempRet0; + $566 = (_bitshift64Shl(($558|0),($559|0),21)|0); + $567 = tempRet0; + $568 = (_i64Subtract(($476|0),($477|0),($566|0),($567|0))|0); + $569 = tempRet0; + $570 = (_i64Add(($446|0),($447|0),1048576,0)|0); + $571 = tempRet0; + $572 = (_bitshift64Ashr(($570|0),($571|0),21)|0); + $573 = tempRet0; + $574 = (_i64Add(($432|0),($433|0),($572|0),($573|0))|0); + $575 = tempRet0; + $576 = (_bitshift64Shl(($572|0),($573|0),21)|0); + $577 = tempRet0; + $578 = (_i64Subtract(($446|0),($447|0),($576|0),($577|0))|0); + $579 = tempRet0; + $580 = (_i64Add(($412|0),($413|0),1048576,0)|0); + $581 = tempRet0; + $582 = (_bitshift64Ashr(($580|0),($581|0),21)|0); + $583 = tempRet0; + $584 = (_i64Add(($582|0),($583|0),($368|0),($369|0))|0); + $585 = tempRet0; + $586 = (_bitshift64Shl(($582|0),($583|0),21)|0); + $587 = tempRet0; + $588 = (_i64Subtract(($412|0),($413|0),($586|0),($587|0))|0); + $589 = tempRet0; + $590 = (_i64Add(($516|0),($517|0),1048576,0)|0); + $591 = tempRet0; + $592 = (_bitshift64Ashr(($590|0),($591|0),21)|0); + $593 = tempRet0; + $594 = (_bitshift64Shl(($592|0),($593|0),21)|0); + $595 = tempRet0; + $596 = (_i64Add(($534|0),($535|0),1048576,0)|0); + $597 = tempRet0; + $598 = (_bitshift64Ashr(($596|0),($597|0),21)|0); + $599 = tempRet0; + $600 = (_bitshift64Shl(($598|0),($599|0),21)|0); + $601 = tempRet0; + $602 = (_i64Add(($552|0),($553|0),1048576,0)|0); + $603 = tempRet0; + $604 = (_bitshift64Ashr(($602|0),($603|0),21)|0); + $605 = tempRet0; + $606 = (_i64Add(($568|0),($569|0),($604|0),($605|0))|0); + $607 = tempRet0; + $608 = (_bitshift64Shl(($604|0),($605|0),21)|0); + $609 = tempRet0; + $610 = (_i64Add(($564|0),($565|0),1048576,0)|0); + $611 = tempRet0; + $612 = (_bitshift64Ashr(($610|0),($611|0),21)|0); + $613 = tempRet0; + $614 = (_i64Add(($578|0),($579|0),($612|0),($613|0))|0); + $615 = tempRet0; + $616 = (_bitshift64Shl(($612|0),($613|0),21)|0); + $617 = tempRet0; + $618 = (_i64Subtract(($564|0),($565|0),($616|0),($617|0))|0); + $619 = tempRet0; + $620 = (_i64Add(($574|0),($575|0),1048576,0)|0); + $621 = tempRet0; + $622 = (_bitshift64Ashr(($620|0),($621|0),21)|0); + $623 = tempRet0; + $624 = (_i64Add(($588|0),($589|0),($622|0),($623|0))|0); + $625 = tempRet0; + $626 = (_bitshift64Shl(($622|0),($623|0),21)|0); + $627 = tempRet0; + $628 = (_i64Subtract(($574|0),($575|0),($626|0),($627|0))|0); + $629 = tempRet0; + $630 = (_i64Add(($584|0),($585|0),1048576,0)|0); + $631 = tempRet0; + $632 = (_bitshift64Ashr(($630|0),($631|0),21)|0); + $633 = tempRet0; + $634 = (_bitshift64Shl(($632|0),($633|0),21)|0); + $635 = tempRet0; + $636 = (_i64Subtract(($584|0),($585|0),($634|0),($635|0))|0); + $637 = tempRet0; + $638 = (___muldi3(($632|0),($633|0),666643,0)|0); + $639 = tempRet0; + $640 = (_i64Add(($520|0),($521|0),($638|0),($639|0))|0); + $641 = tempRet0; + $642 = (___muldi3(($632|0),($633|0),470296,0)|0); + $643 = tempRet0; + $644 = (___muldi3(($632|0),($633|0),654183,0)|0); + $645 = tempRet0; + $646 = (___muldi3(($632|0),($633|0),-997805,-1)|0); + $647 = tempRet0; + $648 = (___muldi3(($632|0),($633|0),136657,0)|0); + $649 = tempRet0; + $650 = (___muldi3(($632|0),($633|0),-683901,-1)|0); + $651 = tempRet0; + $652 = (_bitshift64Ashr(($640|0),($641|0),21)|0); + $653 = tempRet0; + $654 = (_i64Add(($642|0),($643|0),($516|0),($517|0))|0); + $655 = tempRet0; + $656 = (_i64Subtract(($654|0),($655|0),($594|0),($595|0))|0); + $657 = tempRet0; + $658 = (_i64Add(($656|0),($657|0),($652|0),($653|0))|0); + $659 = tempRet0; + $660 = (_bitshift64Shl(($652|0),($653|0),21)|0); + $661 = tempRet0; + $662 = (_i64Subtract(($640|0),($641|0),($660|0),($661|0))|0); + $663 = tempRet0; + $664 = (_bitshift64Ashr(($658|0),($659|0),21)|0); + $665 = tempRet0; + $666 = (_i64Add(($644|0),($645|0),($490|0),($491|0))|0); + $667 = tempRet0; + $668 = (_i64Subtract(($666|0),($667|0),($536|0),($537|0))|0); + $669 = tempRet0; + $670 = (_i64Add(($668|0),($669|0),($592|0),($593|0))|0); + $671 = tempRet0; + $672 = (_i64Add(($670|0),($671|0),($664|0),($665|0))|0); + $673 = tempRet0; + $674 = (_bitshift64Shl(($664|0),($665|0),21)|0); + $675 = tempRet0; + $676 = (_i64Subtract(($658|0),($659|0),($674|0),($675|0))|0); + $677 = tempRet0; + $678 = (_bitshift64Ashr(($672|0),($673|0),21)|0); + $679 = tempRet0; + $680 = (_i64Add(($534|0),($535|0),($646|0),($647|0))|0); + $681 = tempRet0; + $682 = (_i64Subtract(($680|0),($681|0),($600|0),($601|0))|0); + $683 = tempRet0; + $684 = (_i64Add(($682|0),($683|0),($678|0),($679|0))|0); + $685 = tempRet0; + $686 = (_bitshift64Shl(($678|0),($679|0),21)|0); + $687 = tempRet0; + $688 = (_i64Subtract(($672|0),($673|0),($686|0),($687|0))|0); + $689 = tempRet0; + $690 = (_bitshift64Ashr(($684|0),($685|0),21)|0); + $691 = tempRet0; + $692 = (_i64Add(($648|0),($649|0),($504|0),($505|0))|0); + $693 = tempRet0; + $694 = (_i64Subtract(($692|0),($693|0),($554|0),($555|0))|0); + $695 = tempRet0; + $696 = (_i64Add(($694|0),($695|0),($598|0),($599|0))|0); + $697 = tempRet0; + $698 = (_i64Add(($696|0),($697|0),($690|0),($691|0))|0); + $699 = tempRet0; + $700 = (_bitshift64Shl(($690|0),($691|0),21)|0); + $701 = tempRet0; + $702 = (_i64Subtract(($684|0),($685|0),($700|0),($701|0))|0); + $703 = tempRet0; + $704 = (_bitshift64Ashr(($698|0),($699|0),21)|0); + $705 = tempRet0; + $706 = (_i64Add(($552|0),($553|0),($650|0),($651|0))|0); + $707 = tempRet0; + $708 = (_i64Subtract(($706|0),($707|0),($608|0),($609|0))|0); + $709 = tempRet0; + $710 = (_i64Add(($708|0),($709|0),($704|0),($705|0))|0); + $711 = tempRet0; + $712 = (_bitshift64Shl(($704|0),($705|0),21)|0); + $713 = tempRet0; + $714 = (_i64Subtract(($698|0),($699|0),($712|0),($713|0))|0); + $715 = tempRet0; + $716 = (_bitshift64Ashr(($710|0),($711|0),21)|0); + $717 = tempRet0; + $718 = (_i64Add(($606|0),($607|0),($716|0),($717|0))|0); + $719 = tempRet0; + $720 = (_bitshift64Shl(($716|0),($717|0),21)|0); + $721 = tempRet0; + $722 = (_i64Subtract(($710|0),($711|0),($720|0),($721|0))|0); + $723 = tempRet0; + $724 = (_bitshift64Ashr(($718|0),($719|0),21)|0); + $725 = tempRet0; + $726 = (_i64Add(($724|0),($725|0),($618|0),($619|0))|0); + $727 = tempRet0; + $728 = (_bitshift64Shl(($724|0),($725|0),21)|0); + $729 = tempRet0; + $730 = (_i64Subtract(($718|0),($719|0),($728|0),($729|0))|0); + $731 = tempRet0; + $732 = (_bitshift64Ashr(($726|0),($727|0),21)|0); + $733 = tempRet0; + $734 = (_i64Add(($614|0),($615|0),($732|0),($733|0))|0); + $735 = tempRet0; + $736 = (_bitshift64Shl(($732|0),($733|0),21)|0); + $737 = tempRet0; + $738 = (_i64Subtract(($726|0),($727|0),($736|0),($737|0))|0); + $739 = tempRet0; + $740 = (_bitshift64Ashr(($734|0),($735|0),21)|0); + $741 = tempRet0; + $742 = (_i64Add(($740|0),($741|0),($628|0),($629|0))|0); + $743 = tempRet0; + $744 = (_bitshift64Shl(($740|0),($741|0),21)|0); + $745 = tempRet0; + $746 = (_i64Subtract(($734|0),($735|0),($744|0),($745|0))|0); + $747 = tempRet0; + $748 = (_bitshift64Ashr(($742|0),($743|0),21)|0); + $749 = tempRet0; + $750 = (_i64Add(($624|0),($625|0),($748|0),($749|0))|0); + $751 = tempRet0; + $752 = (_bitshift64Shl(($748|0),($749|0),21)|0); + $753 = tempRet0; + $754 = (_i64Subtract(($742|0),($743|0),($752|0),($753|0))|0); + $755 = tempRet0; + $756 = (_bitshift64Ashr(($750|0),($751|0),21)|0); + $757 = tempRet0; + $758 = (_i64Add(($756|0),($757|0),($636|0),($637|0))|0); + $759 = tempRet0; + $760 = (_bitshift64Shl(($756|0),($757|0),21)|0); + $761 = tempRet0; + $762 = (_i64Subtract(($750|0),($751|0),($760|0),($761|0))|0); + $763 = tempRet0; + $764 = (_bitshift64Ashr(($758|0),($759|0),21)|0); + $765 = tempRet0; + $766 = (_bitshift64Shl(($764|0),($765|0),21)|0); + $767 = tempRet0; + $768 = (_i64Subtract(($758|0),($759|0),($766|0),($767|0))|0); + $769 = tempRet0; + $770 = (___muldi3(($764|0),($765|0),666643,0)|0); + $771 = tempRet0; + $772 = (_i64Add(($770|0),($771|0),($662|0),($663|0))|0); + $773 = tempRet0; + $774 = (___muldi3(($764|0),($765|0),470296,0)|0); + $775 = tempRet0; + $776 = (_i64Add(($676|0),($677|0),($774|0),($775|0))|0); + $777 = tempRet0; + $778 = (___muldi3(($764|0),($765|0),654183,0)|0); + $779 = tempRet0; + $780 = (_i64Add(($688|0),($689|0),($778|0),($779|0))|0); + $781 = tempRet0; + $782 = (___muldi3(($764|0),($765|0),-997805,-1)|0); + $783 = tempRet0; + $784 = (_i64Add(($702|0),($703|0),($782|0),($783|0))|0); + $785 = tempRet0; + $786 = (___muldi3(($764|0),($765|0),136657,0)|0); + $787 = tempRet0; + $788 = (_i64Add(($714|0),($715|0),($786|0),($787|0))|0); + $789 = tempRet0; + $790 = (___muldi3(($764|0),($765|0),-683901,-1)|0); + $791 = tempRet0; + $792 = (_i64Add(($722|0),($723|0),($790|0),($791|0))|0); + $793 = tempRet0; + $794 = (_bitshift64Ashr(($772|0),($773|0),21)|0); + $795 = tempRet0; + $796 = (_i64Add(($776|0),($777|0),($794|0),($795|0))|0); + $797 = tempRet0; + $798 = (_bitshift64Shl(($794|0),($795|0),21)|0); + $799 = tempRet0; + $800 = (_i64Subtract(($772|0),($773|0),($798|0),($799|0))|0); + $801 = tempRet0; + $802 = (_bitshift64Ashr(($796|0),($797|0),21)|0); + $803 = tempRet0; + $804 = (_i64Add(($780|0),($781|0),($802|0),($803|0))|0); + $805 = tempRet0; + $806 = (_bitshift64Shl(($802|0),($803|0),21)|0); + $807 = tempRet0; + $808 = (_i64Subtract(($796|0),($797|0),($806|0),($807|0))|0); + $809 = tempRet0; + $810 = (_bitshift64Ashr(($804|0),($805|0),21)|0); + $811 = tempRet0; + $812 = (_i64Add(($784|0),($785|0),($810|0),($811|0))|0); + $813 = tempRet0; + $814 = (_bitshift64Shl(($810|0),($811|0),21)|0); + $815 = tempRet0; + $816 = (_i64Subtract(($804|0),($805|0),($814|0),($815|0))|0); + $817 = tempRet0; + $818 = (_bitshift64Ashr(($812|0),($813|0),21)|0); + $819 = tempRet0; + $820 = (_i64Add(($788|0),($789|0),($818|0),($819|0))|0); + $821 = tempRet0; + $822 = (_bitshift64Shl(($818|0),($819|0),21)|0); + $823 = tempRet0; + $824 = (_i64Subtract(($812|0),($813|0),($822|0),($823|0))|0); + $825 = tempRet0; + $826 = (_bitshift64Ashr(($820|0),($821|0),21)|0); + $827 = tempRet0; + $828 = (_i64Add(($792|0),($793|0),($826|0),($827|0))|0); + $829 = tempRet0; + $830 = (_bitshift64Shl(($826|0),($827|0),21)|0); + $831 = tempRet0; + $832 = (_i64Subtract(($820|0),($821|0),($830|0),($831|0))|0); + $833 = tempRet0; + $834 = (_bitshift64Ashr(($828|0),($829|0),21)|0); + $835 = tempRet0; + $836 = (_i64Add(($834|0),($835|0),($730|0),($731|0))|0); + $837 = tempRet0; + $838 = (_bitshift64Shl(($834|0),($835|0),21)|0); + $839 = tempRet0; + $840 = (_i64Subtract(($828|0),($829|0),($838|0),($839|0))|0); + $841 = tempRet0; + $842 = (_bitshift64Ashr(($836|0),($837|0),21)|0); + $843 = tempRet0; + $844 = (_i64Add(($842|0),($843|0),($738|0),($739|0))|0); + $845 = tempRet0; + $846 = (_bitshift64Shl(($842|0),($843|0),21)|0); + $847 = tempRet0; + $848 = (_i64Subtract(($836|0),($837|0),($846|0),($847|0))|0); + $849 = tempRet0; + $850 = (_bitshift64Ashr(($844|0),($845|0),21)|0); + $851 = tempRet0; + $852 = (_i64Add(($850|0),($851|0),($746|0),($747|0))|0); + $853 = tempRet0; + $854 = (_bitshift64Shl(($850|0),($851|0),21)|0); + $855 = tempRet0; + $856 = (_i64Subtract(($844|0),($845|0),($854|0),($855|0))|0); + $857 = tempRet0; + $858 = (_bitshift64Ashr(($852|0),($853|0),21)|0); + $859 = tempRet0; + $860 = (_i64Add(($858|0),($859|0),($754|0),($755|0))|0); + $861 = tempRet0; + $862 = (_bitshift64Shl(($858|0),($859|0),21)|0); + $863 = tempRet0; + $864 = (_i64Subtract(($852|0),($853|0),($862|0),($863|0))|0); + $865 = tempRet0; + $866 = (_bitshift64Ashr(($860|0),($861|0),21)|0); + $867 = tempRet0; + $868 = (_i64Add(($866|0),($867|0),($762|0),($763|0))|0); + $869 = tempRet0; + $870 = (_bitshift64Shl(($866|0),($867|0),21)|0); + $871 = tempRet0; + $872 = (_i64Subtract(($860|0),($861|0),($870|0),($871|0))|0); + $873 = tempRet0; + $874 = (_bitshift64Ashr(($868|0),($869|0),21)|0); + $875 = tempRet0; + $876 = (_i64Add(($874|0),($875|0),($768|0),($769|0))|0); + $877 = tempRet0; + $878 = (_bitshift64Shl(($874|0),($875|0),21)|0); + $879 = tempRet0; + $880 = (_i64Subtract(($868|0),($869|0),($878|0),($879|0))|0); + $881 = tempRet0; + $882 = $800&255; + HEAP8[$s>>0] = $882; + $883 = (_bitshift64Lshr(($800|0),($801|0),8)|0); + $884 = tempRet0; + $885 = $883&255; + $886 = (($s) + 1|0); + HEAP8[$886>>0] = $885; + $887 = (_bitshift64Lshr(($800|0),($801|0),16)|0); + $888 = tempRet0; + $889 = (_bitshift64Shl(($808|0),($809|0),5)|0); + $890 = tempRet0; + $891 = $889 | $887; + $890 | $888; + $892 = $891&255; + HEAP8[$3>>0] = $892; + $893 = (_bitshift64Lshr(($808|0),($809|0),3)|0); + $894 = tempRet0; + $895 = $893&255; + $896 = (($s) + 3|0); + HEAP8[$896>>0] = $895; + $897 = (_bitshift64Lshr(($808|0),($809|0),11)|0); + $898 = tempRet0; + $899 = $897&255; + $900 = (($s) + 4|0); + HEAP8[$900>>0] = $899; + $901 = (_bitshift64Lshr(($808|0),($809|0),19)|0); + $902 = tempRet0; + $903 = (_bitshift64Shl(($816|0),($817|0),2)|0); + $904 = tempRet0; + $905 = $903 | $901; + $904 | $902; + $906 = $905&255; + HEAP8[$9>>0] = $906; + $907 = (_bitshift64Lshr(($816|0),($817|0),6)|0); + $908 = tempRet0; + $909 = $907&255; + $910 = (($s) + 6|0); + HEAP8[$910>>0] = $909; + $911 = (_bitshift64Lshr(($816|0),($817|0),14)|0); + $912 = tempRet0; + $913 = (_bitshift64Shl(($824|0),($825|0),7)|0); + $914 = tempRet0; + $915 = $913 | $911; + $914 | $912; + $916 = $915&255; + HEAP8[$15>>0] = $916; + $917 = (_bitshift64Lshr(($824|0),($825|0),1)|0); + $918 = tempRet0; + $919 = $917&255; + $920 = (($s) + 8|0); + HEAP8[$920>>0] = $919; + $921 = (_bitshift64Lshr(($824|0),($825|0),9)|0); + $922 = tempRet0; + $923 = $921&255; + $924 = (($s) + 9|0); + HEAP8[$924>>0] = $923; + $925 = (_bitshift64Lshr(($824|0),($825|0),17)|0); + $926 = tempRet0; + $927 = (_bitshift64Shl(($832|0),($833|0),4)|0); + $928 = tempRet0; + $929 = $927 | $925; + $928 | $926; + $930 = $929&255; + HEAP8[$21>>0] = $930; + $931 = (_bitshift64Lshr(($832|0),($833|0),4)|0); + $932 = tempRet0; + $933 = $931&255; + $934 = (($s) + 11|0); + HEAP8[$934>>0] = $933; + $935 = (_bitshift64Lshr(($832|0),($833|0),12)|0); + $936 = tempRet0; + $937 = $935&255; + $938 = (($s) + 12|0); + HEAP8[$938>>0] = $937; + $939 = (_bitshift64Lshr(($832|0),($833|0),20)|0); + $940 = tempRet0; + $941 = (_bitshift64Shl(($840|0),($841|0),1)|0); + $942 = tempRet0; + $943 = $941 | $939; + $942 | $940; + $944 = $943&255; + HEAP8[$27>>0] = $944; + $945 = (_bitshift64Lshr(($840|0),($841|0),7)|0); + $946 = tempRet0; + $947 = $945&255; + $948 = (($s) + 14|0); + HEAP8[$948>>0] = $947; + $949 = (_bitshift64Lshr(($840|0),($841|0),15)|0); + $950 = tempRet0; + $951 = (_bitshift64Shl(($848|0),($849|0),6)|0); + $952 = tempRet0; + $953 = $951 | $949; + $952 | $950; + $954 = $953&255; + HEAP8[$33>>0] = $954; + $955 = (_bitshift64Lshr(($848|0),($849|0),2)|0); + $956 = tempRet0; + $957 = $955&255; + $958 = (($s) + 16|0); + HEAP8[$958>>0] = $957; + $959 = (_bitshift64Lshr(($848|0),($849|0),10)|0); + $960 = tempRet0; + $961 = $959&255; + $962 = (($s) + 17|0); + HEAP8[$962>>0] = $961; + $963 = (_bitshift64Lshr(($848|0),($849|0),18)|0); + $964 = tempRet0; + $965 = (_bitshift64Shl(($856|0),($857|0),3)|0); + $966 = tempRet0; + $967 = $965 | $963; + $966 | $964; + $968 = $967&255; + HEAP8[$39>>0] = $968; + $969 = (_bitshift64Lshr(($856|0),($857|0),5)|0); + $970 = tempRet0; + $971 = $969&255; + $972 = (($s) + 19|0); + HEAP8[$972>>0] = $971; + $973 = (_bitshift64Lshr(($856|0),($857|0),13)|0); + $974 = tempRet0; + $975 = $973&255; + $976 = (($s) + 20|0); + HEAP8[$976>>0] = $975; + $977 = $864&255; + HEAP8[$45>>0] = $977; + $978 = (_bitshift64Lshr(($864|0),($865|0),8)|0); + $979 = tempRet0; + $980 = $978&255; + $981 = (($s) + 22|0); + HEAP8[$981>>0] = $980; + $982 = (_bitshift64Lshr(($864|0),($865|0),16)|0); + $983 = tempRet0; + $984 = (_bitshift64Shl(($872|0),($873|0),5)|0); + $985 = tempRet0; + $986 = $984 | $982; + $985 | $983; + $987 = $986&255; + HEAP8[$49>>0] = $987; + $988 = (_bitshift64Lshr(($872|0),($873|0),3)|0); + $989 = tempRet0; + $990 = $988&255; + $991 = (($s) + 24|0); + HEAP8[$991>>0] = $990; + $992 = (_bitshift64Lshr(($872|0),($873|0),11)|0); + $993 = tempRet0; + $994 = $992&255; + $995 = (($s) + 25|0); + HEAP8[$995>>0] = $994; + $996 = (_bitshift64Lshr(($872|0),($873|0),19)|0); + $997 = tempRet0; + $998 = (_bitshift64Shl(($880|0),($881|0),2)|0); + $999 = tempRet0; + $1000 = $998 | $996; + $999 | $997; + $1001 = $1000&255; + HEAP8[$55>>0] = $1001; + $1002 = (_bitshift64Lshr(($880|0),($881|0),6)|0); + $1003 = tempRet0; + $1004 = $1002&255; + $1005 = (($s) + 27|0); + HEAP8[$1005>>0] = $1004; + $1006 = (_bitshift64Lshr(($880|0),($881|0),14)|0); + $1007 = tempRet0; + $1008 = (_bitshift64Shl(($876|0),($877|0),7)|0); + $1009 = tempRet0; + $1010 = $1006 | $1008; + $1007 | $1009; + $1011 = $1010&255; + HEAP8[$61>>0] = $1011; + $1012 = (_bitshift64Lshr(($876|0),($877|0),1)|0); + $1013 = tempRet0; + $1014 = $1012&255; + $1015 = (($s) + 29|0); + HEAP8[$1015>>0] = $1014; + $1016 = (_bitshift64Lshr(($876|0),($877|0),9)|0); + $1017 = tempRet0; + $1018 = $1016&255; + $1019 = (($s) + 30|0); + HEAP8[$1019>>0] = $1018; + $1020 = (_bitshift64Lshr(($876|0),($877|0),17)|0); + $1021 = tempRet0; + $1022 = $1020&255; + HEAP8[$67>>0] = $1022; + STACKTOP = sp;return; +} +function _load_351($in) { + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$in>>0]|0; + $1 = $0&255; + $2 = (($in) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($in) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + tempRet0 = $14; + STACKTOP = sp;return ($13|0); +} +function _load_452($in) { + $in = $in|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0; + var $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$in>>0]|0; + $1 = $0&255; + $2 = (($in) + 1|0); + $3 = HEAP8[$2>>0]|0; + $4 = $3&255; + $5 = (_bitshift64Shl(($4|0),0,8)|0); + $6 = tempRet0; + $7 = $5 | $1; + $8 = (($in) + 2|0); + $9 = HEAP8[$8>>0]|0; + $10 = $9&255; + $11 = (_bitshift64Shl(($10|0),0,16)|0); + $12 = tempRet0; + $13 = $7 | $11; + $14 = $6 | $12; + $15 = (($in) + 3|0); + $16 = HEAP8[$15>>0]|0; + $17 = $16&255; + $18 = (_bitshift64Shl(($17|0),0,24)|0); + $19 = tempRet0; + $20 = $13 | $18; + $21 = $14 | $19; + tempRet0 = $21; + STACKTOP = sp;return ($20|0); +} +function _sph_sha512_init($cc) { + $cc = $cc|0; + var $0 = 0, $1 = 0, $2 = 0, $3 = 0, $4 = 0, $5 = 0, dest = 0, label = 0, sp = 0, src = 0, stop = 0; + sp = STACKTOP; + $0 = (($cc) + 128|0); + dest=$0+0|0; src=31840+0|0; stop=dest+64|0; do { HEAP32[dest>>2]=HEAP32[src>>2]|0; dest=dest+4|0; src=src+4|0; } while ((dest|0) < (stop|0)); + $1 = (($cc) + 192|0); + $2 = $1; + $3 = $2; + HEAP32[$3>>2] = 0; + $4 = (($2) + 4)|0; + $5 = $4; + HEAP32[$5>>2] = 0; + STACKTOP = sp;return; +} +function _sph_sha384($cc,$data,$len) { + $cc = $cc|0; + $data = $data|0; + $len = $len|0; + var $$01$ = 0, $$012 = 0, $$03 = 0, $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0; + var $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0, $29 = 0, $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $current$04 = 0, $current$1 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = (($cc) + 192|0); + $1 = ($len|0)==(0); + if ($1) { + STACKTOP = sp;return; + } + $2 = $0; + $3 = $2; + $4 = HEAP32[$3>>2]|0; + $5 = (($2) + 4)|0; + $6 = $5; + $7 = HEAP32[$6>>2]|0; + $8 = $4 & 127; + $9 = (($cc) + 128|0); + $$012 = $len;$$03 = $data;$current$04 = $8; + while(1) { + $10 = (128 - ($current$04))|0; + $11 = ($10>>>0)>($$012>>>0); + $$01$ = $11 ? $$012 : $10; + $12 = (($cc) + ($current$04)|0); + _memcpy(($12|0),($$03|0),($$01$|0))|0; + $13 = (($$03) + ($$01$)|0); + $14 = (($$01$) + ($current$04))|0; + $15 = (($$012) - ($$01$))|0; + $16 = ($14|0)==(128); + if ($16) { + _sha3_round($cc,$9); + $current$1 = 0; + } else { + $current$1 = $14; + } + $17 = $0; + $18 = $17; + $19 = HEAP32[$18>>2]|0; + $20 = (($17) + 4)|0; + $21 = $20; + $22 = HEAP32[$21>>2]|0; + $23 = (_i64Add(($19|0),($22|0),($$01$|0),0)|0); + $24 = tempRet0; + $25 = $0; + $26 = $25; + HEAP32[$26>>2] = $23; + $27 = (($25) + 4)|0; + $28 = $27; + HEAP32[$28>>2] = $24; + $29 = ($$012|0)==($$01$|0); + if ($29) { + break; + } else { + $$012 = $15;$$03 = $13;$current$04 = $current$1; + } + } + STACKTOP = sp;return; +} +function _sph_sha512_close($cc,$dst) { + $cc = $cc|0; + $dst = $dst|0; + var label = 0, sp = 0; + sp = STACKTOP; + _sha384_close($cc,$dst,8); + _sph_sha512_init($cc); + STACKTOP = sp;return; +} +function _sha3_round($data,$r) { + $data = $data|0; + $r = $r|0; + var $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0, $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0; + var $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0; + var $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0; + var $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0; + var $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0; + var $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0; + var $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0; + var $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0; + var $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0; + var $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0; + var $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0; + var $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0; + var $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0, $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0; + var $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0, $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0; + var $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0, $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0; + var $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0, $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0; + var $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0, $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0; + var $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0, $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0; + var $422 = 0, $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0, $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0; + var $440 = 0, $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0, $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0; + var $459 = 0, $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0, $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0; + var $477 = 0, $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0, $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0; + var $495 = 0, $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0, $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0; + var $512 = 0, $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0, $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0; + var $530 = 0, $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0, $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0; + var $549 = 0, $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0, $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0; + var $567 = 0, $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0, $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0; + var $585 = 0, $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0, $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0; + var $602 = 0, $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0, $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0; + var $620 = 0, $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0, $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0, $636 = 0, $637 = 0, $638 = 0; + var $639 = 0, $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0, $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0, $654 = 0, $655 = 0, $656 = 0; + var $657 = 0, $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0, $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0, $672 = 0, $673 = 0, $674 = 0; + var $675 = 0, $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0, $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0, $690 = 0, $691 = 0, $692 = 0; + var $693 = 0, $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0, $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0, $708 = 0, $709 = 0, $71 = 0; + var $710 = 0, $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0, $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0, $726 = 0, $727 = 0, $728 = 0; + var $729 = 0, $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0, $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0, $744 = 0, $745 = 0, $746 = 0; + var $747 = 0, $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0, $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0, $762 = 0, $763 = 0, $764 = 0; + var $765 = 0, $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0, $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0, $780 = 0, $781 = 0, $782 = 0; + var $783 = 0, $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0, $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0, $799 = 0, $8 = 0, $80 = 0; + var $800 = 0, $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0, $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0, $816 = 0, $817 = 0, $818 = 0; + var $819 = 0, $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0, $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0, $834 = 0, $835 = 0, $836 = 0; + var $837 = 0, $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0, $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0, $852 = 0, $853 = 0, $854 = 0; + var $855 = 0, $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0, $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0, $870 = 0, $871 = 0, $872 = 0; + var $873 = 0, $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0, $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0, $889 = 0, $89 = 0, $890 = 0; + var $891 = 0, $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0, $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0, $906 = 0, $907 = 0, $908 = 0; + var $909 = 0, $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0, $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0, $924 = 0, $925 = 0, $926 = 0; + var $927 = 0, $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0, $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0, $942 = 0, $943 = 0, $944 = 0; + var $945 = 0, $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $W = 0, $exitcond = 0, $exitcond19 = 0, $i$011 = 0, $i$110 = 0, $i$29 = 0; + var label = 0, sp = 0; + sp = STACKTOP; + STACKTOP = STACKTOP + 640|0; + $W = sp; + $i$011 = 0; + while(1) { + $0 = $i$011 << 3; + $1 = (($data) + ($0)|0); + $2 = (_sph_dec64be_aligned($1)|0); + $3 = tempRet0; + $4 = (($W) + ($i$011<<3)|0); + $5 = $4; + $6 = $5; + HEAP32[$6>>2] = $2; + $7 = (($5) + 4)|0; + $8 = $7; + HEAP32[$8>>2] = $3; + $9 = (($i$011) + 1)|0; + $exitcond19 = ($9|0)==(16); + if ($exitcond19) { + $i$110 = 16; + break; + } else { + $i$011 = $9; + } + } + while(1) { + $10 = (($i$110) + -2)|0; + $11 = (($W) + ($10<<3)|0); + $12 = $11; + $13 = $12; + $14 = HEAP32[$13>>2]|0; + $15 = (($12) + 4)|0; + $16 = $15; + $17 = HEAP32[$16>>2]|0; + $18 = (_bitshift64Shl(($14|0),($17|0),45)|0); + $19 = tempRet0; + $20 = (_bitshift64Lshr(($14|0),($17|0),19)|0); + $21 = tempRet0; + $22 = $18 | $20; + $23 = $19 | $21; + $24 = (_bitshift64Shl(($14|0),($17|0),3)|0); + $25 = tempRet0; + $26 = (_bitshift64Lshr(($14|0),($17|0),61)|0); + $27 = tempRet0; + $28 = $24 | $26; + $29 = $25 | $27; + $30 = (_bitshift64Lshr(($14|0),($17|0),6)|0); + $31 = tempRet0; + $32 = $28 ^ $30; + $33 = $29 ^ $31; + $34 = $32 ^ $22; + $35 = $33 ^ $23; + $36 = (($i$110) + -7)|0; + $37 = (($W) + ($36<<3)|0); + $38 = $37; + $39 = $38; + $40 = HEAP32[$39>>2]|0; + $41 = (($38) + 4)|0; + $42 = $41; + $43 = HEAP32[$42>>2]|0; + $44 = (($i$110) + -15)|0; + $45 = (($W) + ($44<<3)|0); + $46 = $45; + $47 = $46; + $48 = HEAP32[$47>>2]|0; + $49 = (($46) + 4)|0; + $50 = $49; + $51 = HEAP32[$50>>2]|0; + $52 = (_bitshift64Shl(($48|0),($51|0),63)|0); + $53 = tempRet0; + $54 = (_bitshift64Lshr(($48|0),($51|0),1)|0); + $55 = tempRet0; + $56 = $52 | $54; + $57 = $53 | $55; + $58 = (_bitshift64Shl(($48|0),($51|0),56)|0); + $59 = tempRet0; + $60 = (_bitshift64Lshr(($48|0),($51|0),8)|0); + $61 = tempRet0; + $62 = $58 | $60; + $63 = $59 | $61; + $64 = (_bitshift64Lshr(($48|0),($51|0),7)|0); + $65 = tempRet0; + $66 = $62 ^ $64; + $67 = $63 ^ $65; + $68 = $66 ^ $56; + $69 = $67 ^ $57; + $70 = (($i$110) + -16)|0; + $71 = (($W) + ($70<<3)|0); + $72 = $71; + $73 = $72; + $74 = HEAP32[$73>>2]|0; + $75 = (($72) + 4)|0; + $76 = $75; + $77 = HEAP32[$76>>2]|0; + $78 = (_i64Add(($74|0),($77|0),($40|0),($43|0))|0); + $79 = tempRet0; + $80 = (_i64Add(($78|0),($79|0),($34|0),($35|0))|0); + $81 = tempRet0; + $82 = (_i64Add(($80|0),($81|0),($68|0),($69|0))|0); + $83 = tempRet0; + $84 = (($W) + ($i$110<<3)|0); + $85 = $84; + $86 = $85; + HEAP32[$86>>2] = $82; + $87 = (($85) + 4)|0; + $88 = $87; + HEAP32[$88>>2] = $83; + $89 = (($i$110) + 1)|0; + $exitcond = ($89|0)==(80); + if ($exitcond) { + break; + } else { + $i$110 = $89; + } + } + $90 = $r; + $91 = $90; + $92 = HEAP32[$91>>2]|0; + $93 = (($90) + 4)|0; + $94 = $93; + $95 = HEAP32[$94>>2]|0; + $96 = (($r) + 8|0); + $97 = $96; + $98 = $97; + $99 = HEAP32[$98>>2]|0; + $100 = (($97) + 4)|0; + $101 = $100; + $102 = HEAP32[$101>>2]|0; + $103 = (($r) + 16|0); + $104 = $103; + $105 = $104; + $106 = HEAP32[$105>>2]|0; + $107 = (($104) + 4)|0; + $108 = $107; + $109 = HEAP32[$108>>2]|0; + $110 = (($r) + 24|0); + $111 = $110; + $112 = $111; + $113 = HEAP32[$112>>2]|0; + $114 = (($111) + 4)|0; + $115 = $114; + $116 = HEAP32[$115>>2]|0; + $117 = (($r) + 32|0); + $118 = $117; + $119 = $118; + $120 = HEAP32[$119>>2]|0; + $121 = (($118) + 4)|0; + $122 = $121; + $123 = HEAP32[$122>>2]|0; + $124 = (($r) + 40|0); + $125 = $124; + $126 = $125; + $127 = HEAP32[$126>>2]|0; + $128 = (($125) + 4)|0; + $129 = $128; + $130 = HEAP32[$129>>2]|0; + $131 = (($r) + 48|0); + $132 = $131; + $133 = $132; + $134 = HEAP32[$133>>2]|0; + $135 = (($132) + 4)|0; + $136 = $135; + $137 = HEAP32[$136>>2]|0; + $138 = (($r) + 56|0); + $139 = $138; + $140 = $139; + $141 = HEAP32[$140>>2]|0; + $142 = (($139) + 4)|0; + $143 = $142; + $144 = HEAP32[$143>>2]|0; + $145 = $120;$146 = $123;$170 = $134;$171 = $127;$173 = $137;$174 = $130;$193 = $141;$194 = $144;$203 = $92;$204 = $95;$228 = $99;$230 = $102;$234 = $106;$236 = $109;$241 = $113;$242 = $116;$i$29 = 0; + while(1) { + $147 = (_bitshift64Shl(($145|0),($146|0),50)|0); + $148 = tempRet0; + $149 = (_bitshift64Lshr(($145|0),($146|0),14)|0); + $150 = tempRet0; + $151 = $147 | $149; + $152 = $148 | $150; + $153 = (_bitshift64Shl(($145|0),($146|0),46)|0); + $154 = tempRet0; + $155 = (_bitshift64Lshr(($145|0),($146|0),18)|0); + $156 = tempRet0; + $157 = $153 | $155; + $158 = $154 | $156; + $159 = $151 ^ $157; + $160 = $152 ^ $158; + $161 = (_bitshift64Shl(($145|0),($146|0),23)|0); + $162 = tempRet0; + $163 = (_bitshift64Lshr(($145|0),($146|0),41)|0); + $164 = tempRet0; + $165 = $161 | $163; + $166 = $162 | $164; + $167 = $159 ^ $165; + $168 = $160 ^ $166; + $169 = $171 ^ $170; + $172 = $174 ^ $173; + $175 = $169 & $145; + $176 = $172 & $146; + $177 = $175 ^ $170; + $178 = $176 ^ $173; + $179 = (31904 + ($i$29<<3)|0); + $180 = $179; + $181 = $180; + $182 = HEAP32[$181>>2]|0; + $183 = (($180) + 4)|0; + $184 = $183; + $185 = HEAP32[$184>>2]|0; + $186 = (($W) + ($i$29<<3)|0); + $187 = $186; + $188 = $187; + $189 = HEAP32[$188>>2]|0; + $190 = (($187) + 4)|0; + $191 = $190; + $192 = HEAP32[$191>>2]|0; + $195 = (_i64Add(($177|0),($178|0),($193|0),($194|0))|0); + $196 = tempRet0; + $197 = (_i64Add(($195|0),($196|0),($167|0),($168|0))|0); + $198 = tempRet0; + $199 = (_i64Add(($197|0),($198|0),($182|0),($185|0))|0); + $200 = tempRet0; + $201 = (_i64Add(($199|0),($200|0),($189|0),($192|0))|0); + $202 = tempRet0; + $205 = (_bitshift64Shl(($203|0),($204|0),36)|0); + $206 = tempRet0; + $207 = (_bitshift64Lshr(($203|0),($204|0),28)|0); + $208 = tempRet0; + $209 = $205 | $207; + $210 = $206 | $208; + $211 = (_bitshift64Shl(($203|0),($204|0),30)|0); + $212 = tempRet0; + $213 = (_bitshift64Lshr(($203|0),($204|0),34)|0); + $214 = tempRet0; + $215 = $211 | $213; + $216 = $212 | $214; + $217 = $209 ^ $215; + $218 = $210 ^ $216; + $219 = (_bitshift64Shl(($203|0),($204|0),25)|0); + $220 = tempRet0; + $221 = (_bitshift64Lshr(($203|0),($204|0),39)|0); + $222 = tempRet0; + $223 = $219 | $221; + $224 = $220 | $222; + $225 = $217 ^ $223; + $226 = $218 ^ $224; + $227 = $203 & $228; + $229 = $204 & $230; + $231 = $203 | $228; + $232 = $204 | $230; + $233 = $231 & $234; + $235 = $232 & $236; + $237 = $233 | $227; + $238 = $235 | $229; + $239 = (_i64Add(($225|0),($226|0),($237|0),($238|0))|0); + $240 = tempRet0; + $243 = (_i64Add(($201|0),($202|0),($241|0),($242|0))|0); + $244 = tempRet0; + $245 = (_i64Add(($239|0),($240|0),($201|0),($202|0))|0); + $246 = tempRet0; + $247 = (_bitshift64Shl(($243|0),($244|0),50)|0); + $248 = tempRet0; + $249 = (_bitshift64Lshr(($243|0),($244|0),14)|0); + $250 = tempRet0; + $251 = $247 | $249; + $252 = $248 | $250; + $253 = (_bitshift64Shl(($243|0),($244|0),46)|0); + $254 = tempRet0; + $255 = (_bitshift64Lshr(($243|0),($244|0),18)|0); + $256 = tempRet0; + $257 = $253 | $255; + $258 = $254 | $256; + $259 = $251 ^ $257; + $260 = $252 ^ $258; + $261 = (_bitshift64Shl(($243|0),($244|0),23)|0); + $262 = tempRet0; + $263 = (_bitshift64Lshr(($243|0),($244|0),41)|0); + $264 = tempRet0; + $265 = $261 | $263; + $266 = $262 | $264; + $267 = $259 ^ $265; + $268 = $260 ^ $266; + $269 = $145 ^ $171; + $270 = $146 ^ $174; + $271 = $243 & $269; + $272 = $244 & $270; + $273 = $271 ^ $171; + $274 = $272 ^ $174; + $275 = $i$29 | 1; + $276 = (31904 + ($275<<3)|0); + $277 = $276; + $278 = $277; + $279 = HEAP32[$278>>2]|0; + $280 = (($277) + 4)|0; + $281 = $280; + $282 = HEAP32[$281>>2]|0; + $283 = (($W) + ($275<<3)|0); + $284 = $283; + $285 = $284; + $286 = HEAP32[$285>>2]|0; + $287 = (($284) + 4)|0; + $288 = $287; + $289 = HEAP32[$288>>2]|0; + $290 = (_i64Add(($279|0),($282|0),($170|0),($173|0))|0); + $291 = tempRet0; + $292 = (_i64Add(($290|0),($291|0),($286|0),($289|0))|0); + $293 = tempRet0; + $294 = (_i64Add(($292|0),($293|0),($273|0),($274|0))|0); + $295 = tempRet0; + $296 = (_i64Add(($294|0),($295|0),($267|0),($268|0))|0); + $297 = tempRet0; + $298 = (_bitshift64Shl(($245|0),($246|0),36)|0); + $299 = tempRet0; + $300 = (_bitshift64Lshr(($245|0),($246|0),28)|0); + $301 = tempRet0; + $302 = $298 | $300; + $303 = $299 | $301; + $304 = (_bitshift64Shl(($245|0),($246|0),30)|0); + $305 = tempRet0; + $306 = (_bitshift64Lshr(($245|0),($246|0),34)|0); + $307 = tempRet0; + $308 = $304 | $306; + $309 = $305 | $307; + $310 = $302 ^ $308; + $311 = $303 ^ $309; + $312 = (_bitshift64Shl(($245|0),($246|0),25)|0); + $313 = tempRet0; + $314 = (_bitshift64Lshr(($245|0),($246|0),39)|0); + $315 = tempRet0; + $316 = $312 | $314; + $317 = $313 | $315; + $318 = $310 ^ $316; + $319 = $311 ^ $317; + $320 = $245 & $203; + $321 = $246 & $204; + $322 = $245 | $203; + $323 = $246 | $204; + $324 = $322 & $228; + $325 = $323 & $230; + $326 = $324 | $320; + $327 = $325 | $321; + $328 = (_i64Add(($318|0),($319|0),($326|0),($327|0))|0); + $329 = tempRet0; + $330 = (_i64Add(($296|0),($297|0),($234|0),($236|0))|0); + $331 = tempRet0; + $332 = (_i64Add(($328|0),($329|0),($296|0),($297|0))|0); + $333 = tempRet0; + $334 = (_bitshift64Shl(($330|0),($331|0),50)|0); + $335 = tempRet0; + $336 = (_bitshift64Lshr(($330|0),($331|0),14)|0); + $337 = tempRet0; + $338 = $334 | $336; + $339 = $335 | $337; + $340 = (_bitshift64Shl(($330|0),($331|0),46)|0); + $341 = tempRet0; + $342 = (_bitshift64Lshr(($330|0),($331|0),18)|0); + $343 = tempRet0; + $344 = $340 | $342; + $345 = $341 | $343; + $346 = $338 ^ $344; + $347 = $339 ^ $345; + $348 = (_bitshift64Shl(($330|0),($331|0),23)|0); + $349 = tempRet0; + $350 = (_bitshift64Lshr(($330|0),($331|0),41)|0); + $351 = tempRet0; + $352 = $348 | $350; + $353 = $349 | $351; + $354 = $346 ^ $352; + $355 = $347 ^ $353; + $356 = $243 ^ $145; + $357 = $244 ^ $146; + $358 = $330 & $356; + $359 = $331 & $357; + $360 = $358 ^ $145; + $361 = $359 ^ $146; + $362 = $i$29 | 2; + $363 = (31904 + ($362<<3)|0); + $364 = $363; + $365 = $364; + $366 = HEAP32[$365>>2]|0; + $367 = (($364) + 4)|0; + $368 = $367; + $369 = HEAP32[$368>>2]|0; + $370 = (($W) + ($362<<3)|0); + $371 = $370; + $372 = $371; + $373 = HEAP32[$372>>2]|0; + $374 = (($371) + 4)|0; + $375 = $374; + $376 = HEAP32[$375>>2]|0; + $377 = (_i64Add(($366|0),($369|0),($171|0),($174|0))|0); + $378 = tempRet0; + $379 = (_i64Add(($377|0),($378|0),($373|0),($376|0))|0); + $380 = tempRet0; + $381 = (_i64Add(($379|0),($380|0),($360|0),($361|0))|0); + $382 = tempRet0; + $383 = (_i64Add(($381|0),($382|0),($354|0),($355|0))|0); + $384 = tempRet0; + $385 = (_bitshift64Shl(($332|0),($333|0),36)|0); + $386 = tempRet0; + $387 = (_bitshift64Lshr(($332|0),($333|0),28)|0); + $388 = tempRet0; + $389 = $385 | $387; + $390 = $386 | $388; + $391 = (_bitshift64Shl(($332|0),($333|0),30)|0); + $392 = tempRet0; + $393 = (_bitshift64Lshr(($332|0),($333|0),34)|0); + $394 = tempRet0; + $395 = $391 | $393; + $396 = $392 | $394; + $397 = $389 ^ $395; + $398 = $390 ^ $396; + $399 = (_bitshift64Shl(($332|0),($333|0),25)|0); + $400 = tempRet0; + $401 = (_bitshift64Lshr(($332|0),($333|0),39)|0); + $402 = tempRet0; + $403 = $399 | $401; + $404 = $400 | $402; + $405 = $397 ^ $403; + $406 = $398 ^ $404; + $407 = $332 & $245; + $408 = $333 & $246; + $409 = $332 | $245; + $410 = $333 | $246; + $411 = $409 & $203; + $412 = $410 & $204; + $413 = $411 | $407; + $414 = $412 | $408; + $415 = (_i64Add(($405|0),($406|0),($413|0),($414|0))|0); + $416 = tempRet0; + $417 = (_i64Add(($383|0),($384|0),($228|0),($230|0))|0); + $418 = tempRet0; + $419 = (_i64Add(($415|0),($416|0),($383|0),($384|0))|0); + $420 = tempRet0; + $421 = (_bitshift64Shl(($417|0),($418|0),50)|0); + $422 = tempRet0; + $423 = (_bitshift64Lshr(($417|0),($418|0),14)|0); + $424 = tempRet0; + $425 = $421 | $423; + $426 = $422 | $424; + $427 = (_bitshift64Shl(($417|0),($418|0),46)|0); + $428 = tempRet0; + $429 = (_bitshift64Lshr(($417|0),($418|0),18)|0); + $430 = tempRet0; + $431 = $427 | $429; + $432 = $428 | $430; + $433 = $425 ^ $431; + $434 = $426 ^ $432; + $435 = (_bitshift64Shl(($417|0),($418|0),23)|0); + $436 = tempRet0; + $437 = (_bitshift64Lshr(($417|0),($418|0),41)|0); + $438 = tempRet0; + $439 = $435 | $437; + $440 = $436 | $438; + $441 = $433 ^ $439; + $442 = $434 ^ $440; + $443 = $330 ^ $243; + $444 = $331 ^ $244; + $445 = $417 & $443; + $446 = $418 & $444; + $447 = $445 ^ $243; + $448 = $446 ^ $244; + $449 = $i$29 | 3; + $450 = (31904 + ($449<<3)|0); + $451 = $450; + $452 = $451; + $453 = HEAP32[$452>>2]|0; + $454 = (($451) + 4)|0; + $455 = $454; + $456 = HEAP32[$455>>2]|0; + $457 = (($W) + ($449<<3)|0); + $458 = $457; + $459 = $458; + $460 = HEAP32[$459>>2]|0; + $461 = (($458) + 4)|0; + $462 = $461; + $463 = HEAP32[$462>>2]|0; + $464 = (_i64Add(($453|0),($456|0),($145|0),($146|0))|0); + $465 = tempRet0; + $466 = (_i64Add(($464|0),($465|0),($460|0),($463|0))|0); + $467 = tempRet0; + $468 = (_i64Add(($466|0),($467|0),($447|0),($448|0))|0); + $469 = tempRet0; + $470 = (_i64Add(($468|0),($469|0),($441|0),($442|0))|0); + $471 = tempRet0; + $472 = (_bitshift64Shl(($419|0),($420|0),36)|0); + $473 = tempRet0; + $474 = (_bitshift64Lshr(($419|0),($420|0),28)|0); + $475 = tempRet0; + $476 = $472 | $474; + $477 = $473 | $475; + $478 = (_bitshift64Shl(($419|0),($420|0),30)|0); + $479 = tempRet0; + $480 = (_bitshift64Lshr(($419|0),($420|0),34)|0); + $481 = tempRet0; + $482 = $478 | $480; + $483 = $479 | $481; + $484 = $476 ^ $482; + $485 = $477 ^ $483; + $486 = (_bitshift64Shl(($419|0),($420|0),25)|0); + $487 = tempRet0; + $488 = (_bitshift64Lshr(($419|0),($420|0),39)|0); + $489 = tempRet0; + $490 = $486 | $488; + $491 = $487 | $489; + $492 = $484 ^ $490; + $493 = $485 ^ $491; + $494 = $419 & $332; + $495 = $420 & $333; + $496 = $419 | $332; + $497 = $420 | $333; + $498 = $496 & $245; + $499 = $497 & $246; + $500 = $498 | $494; + $501 = $499 | $495; + $502 = (_i64Add(($492|0),($493|0),($500|0),($501|0))|0); + $503 = tempRet0; + $504 = (_i64Add(($470|0),($471|0),($203|0),($204|0))|0); + $505 = tempRet0; + $506 = (_i64Add(($502|0),($503|0),($470|0),($471|0))|0); + $507 = tempRet0; + $508 = (_bitshift64Shl(($504|0),($505|0),50)|0); + $509 = tempRet0; + $510 = (_bitshift64Lshr(($504|0),($505|0),14)|0); + $511 = tempRet0; + $512 = $508 | $510; + $513 = $509 | $511; + $514 = (_bitshift64Shl(($504|0),($505|0),46)|0); + $515 = tempRet0; + $516 = (_bitshift64Lshr(($504|0),($505|0),18)|0); + $517 = tempRet0; + $518 = $514 | $516; + $519 = $515 | $517; + $520 = $512 ^ $518; + $521 = $513 ^ $519; + $522 = (_bitshift64Shl(($504|0),($505|0),23)|0); + $523 = tempRet0; + $524 = (_bitshift64Lshr(($504|0),($505|0),41)|0); + $525 = tempRet0; + $526 = $522 | $524; + $527 = $523 | $525; + $528 = $520 ^ $526; + $529 = $521 ^ $527; + $530 = $417 ^ $330; + $531 = $418 ^ $331; + $532 = $504 & $530; + $533 = $505 & $531; + $534 = $532 ^ $330; + $535 = $533 ^ $331; + $536 = $i$29 | 4; + $537 = (31904 + ($536<<3)|0); + $538 = $537; + $539 = $538; + $540 = HEAP32[$539>>2]|0; + $541 = (($538) + 4)|0; + $542 = $541; + $543 = HEAP32[$542>>2]|0; + $544 = (($W) + ($536<<3)|0); + $545 = $544; + $546 = $545; + $547 = HEAP32[$546>>2]|0; + $548 = (($545) + 4)|0; + $549 = $548; + $550 = HEAP32[$549>>2]|0; + $551 = (_i64Add(($540|0),($543|0),($243|0),($244|0))|0); + $552 = tempRet0; + $553 = (_i64Add(($551|0),($552|0),($547|0),($550|0))|0); + $554 = tempRet0; + $555 = (_i64Add(($553|0),($554|0),($534|0),($535|0))|0); + $556 = tempRet0; + $557 = (_i64Add(($555|0),($556|0),($528|0),($529|0))|0); + $558 = tempRet0; + $559 = (_bitshift64Shl(($506|0),($507|0),36)|0); + $560 = tempRet0; + $561 = (_bitshift64Lshr(($506|0),($507|0),28)|0); + $562 = tempRet0; + $563 = $559 | $561; + $564 = $560 | $562; + $565 = (_bitshift64Shl(($506|0),($507|0),30)|0); + $566 = tempRet0; + $567 = (_bitshift64Lshr(($506|0),($507|0),34)|0); + $568 = tempRet0; + $569 = $565 | $567; + $570 = $566 | $568; + $571 = $563 ^ $569; + $572 = $564 ^ $570; + $573 = (_bitshift64Shl(($506|0),($507|0),25)|0); + $574 = tempRet0; + $575 = (_bitshift64Lshr(($506|0),($507|0),39)|0); + $576 = tempRet0; + $577 = $573 | $575; + $578 = $574 | $576; + $579 = $571 ^ $577; + $580 = $572 ^ $578; + $581 = $506 & $419; + $582 = $507 & $420; + $583 = $506 | $419; + $584 = $507 | $420; + $585 = $583 & $332; + $586 = $584 & $333; + $587 = $585 | $581; + $588 = $586 | $582; + $589 = (_i64Add(($579|0),($580|0),($587|0),($588|0))|0); + $590 = tempRet0; + $591 = (_i64Add(($557|0),($558|0),($245|0),($246|0))|0); + $592 = tempRet0; + $593 = (_i64Add(($589|0),($590|0),($557|0),($558|0))|0); + $594 = tempRet0; + $595 = (_bitshift64Shl(($591|0),($592|0),50)|0); + $596 = tempRet0; + $597 = (_bitshift64Lshr(($591|0),($592|0),14)|0); + $598 = tempRet0; + $599 = $595 | $597; + $600 = $596 | $598; + $601 = (_bitshift64Shl(($591|0),($592|0),46)|0); + $602 = tempRet0; + $603 = (_bitshift64Lshr(($591|0),($592|0),18)|0); + $604 = tempRet0; + $605 = $601 | $603; + $606 = $602 | $604; + $607 = $599 ^ $605; + $608 = $600 ^ $606; + $609 = (_bitshift64Shl(($591|0),($592|0),23)|0); + $610 = tempRet0; + $611 = (_bitshift64Lshr(($591|0),($592|0),41)|0); + $612 = tempRet0; + $613 = $609 | $611; + $614 = $610 | $612; + $615 = $607 ^ $613; + $616 = $608 ^ $614; + $617 = $504 ^ $417; + $618 = $505 ^ $418; + $619 = $591 & $617; + $620 = $592 & $618; + $621 = $619 ^ $417; + $622 = $620 ^ $418; + $623 = $i$29 | 5; + $624 = (31904 + ($623<<3)|0); + $625 = $624; + $626 = $625; + $627 = HEAP32[$626>>2]|0; + $628 = (($625) + 4)|0; + $629 = $628; + $630 = HEAP32[$629>>2]|0; + $631 = (($W) + ($623<<3)|0); + $632 = $631; + $633 = $632; + $634 = HEAP32[$633>>2]|0; + $635 = (($632) + 4)|0; + $636 = $635; + $637 = HEAP32[$636>>2]|0; + $638 = (_i64Add(($627|0),($630|0),($330|0),($331|0))|0); + $639 = tempRet0; + $640 = (_i64Add(($638|0),($639|0),($634|0),($637|0))|0); + $641 = tempRet0; + $642 = (_i64Add(($640|0),($641|0),($621|0),($622|0))|0); + $643 = tempRet0; + $644 = (_i64Add(($642|0),($643|0),($615|0),($616|0))|0); + $645 = tempRet0; + $646 = (_bitshift64Shl(($593|0),($594|0),36)|0); + $647 = tempRet0; + $648 = (_bitshift64Lshr(($593|0),($594|0),28)|0); + $649 = tempRet0; + $650 = $646 | $648; + $651 = $647 | $649; + $652 = (_bitshift64Shl(($593|0),($594|0),30)|0); + $653 = tempRet0; + $654 = (_bitshift64Lshr(($593|0),($594|0),34)|0); + $655 = tempRet0; + $656 = $652 | $654; + $657 = $653 | $655; + $658 = $650 ^ $656; + $659 = $651 ^ $657; + $660 = (_bitshift64Shl(($593|0),($594|0),25)|0); + $661 = tempRet0; + $662 = (_bitshift64Lshr(($593|0),($594|0),39)|0); + $663 = tempRet0; + $664 = $660 | $662; + $665 = $661 | $663; + $666 = $658 ^ $664; + $667 = $659 ^ $665; + $668 = $593 & $506; + $669 = $594 & $507; + $670 = $593 | $506; + $671 = $594 | $507; + $672 = $670 & $419; + $673 = $671 & $420; + $674 = $672 | $668; + $675 = $673 | $669; + $676 = (_i64Add(($666|0),($667|0),($674|0),($675|0))|0); + $677 = tempRet0; + $678 = (_i64Add(($644|0),($645|0),($332|0),($333|0))|0); + $679 = tempRet0; + $680 = (_i64Add(($676|0),($677|0),($644|0),($645|0))|0); + $681 = tempRet0; + $682 = (_bitshift64Shl(($678|0),($679|0),50)|0); + $683 = tempRet0; + $684 = (_bitshift64Lshr(($678|0),($679|0),14)|0); + $685 = tempRet0; + $686 = $682 | $684; + $687 = $683 | $685; + $688 = (_bitshift64Shl(($678|0),($679|0),46)|0); + $689 = tempRet0; + $690 = (_bitshift64Lshr(($678|0),($679|0),18)|0); + $691 = tempRet0; + $692 = $688 | $690; + $693 = $689 | $691; + $694 = $686 ^ $692; + $695 = $687 ^ $693; + $696 = (_bitshift64Shl(($678|0),($679|0),23)|0); + $697 = tempRet0; + $698 = (_bitshift64Lshr(($678|0),($679|0),41)|0); + $699 = tempRet0; + $700 = $696 | $698; + $701 = $697 | $699; + $702 = $694 ^ $700; + $703 = $695 ^ $701; + $704 = $591 ^ $504; + $705 = $592 ^ $505; + $706 = $678 & $704; + $707 = $679 & $705; + $708 = $706 ^ $504; + $709 = $707 ^ $505; + $710 = $i$29 | 6; + $711 = (31904 + ($710<<3)|0); + $712 = $711; + $713 = $712; + $714 = HEAP32[$713>>2]|0; + $715 = (($712) + 4)|0; + $716 = $715; + $717 = HEAP32[$716>>2]|0; + $718 = (($W) + ($710<<3)|0); + $719 = $718; + $720 = $719; + $721 = HEAP32[$720>>2]|0; + $722 = (($719) + 4)|0; + $723 = $722; + $724 = HEAP32[$723>>2]|0; + $725 = (_i64Add(($721|0),($724|0),($714|0),($717|0))|0); + $726 = tempRet0; + $727 = (_i64Add(($725|0),($726|0),($417|0),($418|0))|0); + $728 = tempRet0; + $729 = (_i64Add(($727|0),($728|0),($708|0),($709|0))|0); + $730 = tempRet0; + $731 = (_i64Add(($729|0),($730|0),($702|0),($703|0))|0); + $732 = tempRet0; + $733 = (_bitshift64Shl(($680|0),($681|0),36)|0); + $734 = tempRet0; + $735 = (_bitshift64Lshr(($680|0),($681|0),28)|0); + $736 = tempRet0; + $737 = $733 | $735; + $738 = $734 | $736; + $739 = (_bitshift64Shl(($680|0),($681|0),30)|0); + $740 = tempRet0; + $741 = (_bitshift64Lshr(($680|0),($681|0),34)|0); + $742 = tempRet0; + $743 = $739 | $741; + $744 = $740 | $742; + $745 = $737 ^ $743; + $746 = $738 ^ $744; + $747 = (_bitshift64Shl(($680|0),($681|0),25)|0); + $748 = tempRet0; + $749 = (_bitshift64Lshr(($680|0),($681|0),39)|0); + $750 = tempRet0; + $751 = $747 | $749; + $752 = $748 | $750; + $753 = $745 ^ $751; + $754 = $746 ^ $752; + $755 = $680 & $593; + $756 = $681 & $594; + $757 = $680 | $593; + $758 = $681 | $594; + $759 = $757 & $506; + $760 = $758 & $507; + $761 = $759 | $755; + $762 = $760 | $756; + $763 = (_i64Add(($753|0),($754|0),($761|0),($762|0))|0); + $764 = tempRet0; + $765 = (_i64Add(($731|0),($732|0),($419|0),($420|0))|0); + $766 = tempRet0; + $767 = (_i64Add(($763|0),($764|0),($731|0),($732|0))|0); + $768 = tempRet0; + $769 = (_bitshift64Shl(($765|0),($766|0),50)|0); + $770 = tempRet0; + $771 = (_bitshift64Lshr(($765|0),($766|0),14)|0); + $772 = tempRet0; + $773 = $769 | $771; + $774 = $770 | $772; + $775 = (_bitshift64Shl(($765|0),($766|0),46)|0); + $776 = tempRet0; + $777 = (_bitshift64Lshr(($765|0),($766|0),18)|0); + $778 = tempRet0; + $779 = $775 | $777; + $780 = $776 | $778; + $781 = $773 ^ $779; + $782 = $774 ^ $780; + $783 = (_bitshift64Shl(($765|0),($766|0),23)|0); + $784 = tempRet0; + $785 = (_bitshift64Lshr(($765|0),($766|0),41)|0); + $786 = tempRet0; + $787 = $783 | $785; + $788 = $784 | $786; + $789 = $781 ^ $787; + $790 = $782 ^ $788; + $791 = $678 ^ $591; + $792 = $679 ^ $592; + $793 = $765 & $791; + $794 = $766 & $792; + $795 = $793 ^ $591; + $796 = $794 ^ $592; + $797 = $i$29 | 7; + $798 = (31904 + ($797<<3)|0); + $799 = $798; + $800 = $799; + $801 = HEAP32[$800>>2]|0; + $802 = (($799) + 4)|0; + $803 = $802; + $804 = HEAP32[$803>>2]|0; + $805 = (($W) + ($797<<3)|0); + $806 = $805; + $807 = $806; + $808 = HEAP32[$807>>2]|0; + $809 = (($806) + 4)|0; + $810 = $809; + $811 = HEAP32[$810>>2]|0; + $812 = (_i64Add(($808|0),($811|0),($801|0),($804|0))|0); + $813 = tempRet0; + $814 = (_i64Add(($812|0),($813|0),($504|0),($505|0))|0); + $815 = tempRet0; + $816 = (_i64Add(($814|0),($815|0),($795|0),($796|0))|0); + $817 = tempRet0; + $818 = (_i64Add(($816|0),($817|0),($789|0),($790|0))|0); + $819 = tempRet0; + $820 = (_bitshift64Shl(($767|0),($768|0),36)|0); + $821 = tempRet0; + $822 = (_bitshift64Lshr(($767|0),($768|0),28)|0); + $823 = tempRet0; + $824 = $820 | $822; + $825 = $821 | $823; + $826 = (_bitshift64Shl(($767|0),($768|0),30)|0); + $827 = tempRet0; + $828 = (_bitshift64Lshr(($767|0),($768|0),34)|0); + $829 = tempRet0; + $830 = $826 | $828; + $831 = $827 | $829; + $832 = $824 ^ $830; + $833 = $825 ^ $831; + $834 = (_bitshift64Shl(($767|0),($768|0),25)|0); + $835 = tempRet0; + $836 = (_bitshift64Lshr(($767|0),($768|0),39)|0); + $837 = tempRet0; + $838 = $834 | $836; + $839 = $835 | $837; + $840 = $832 ^ $838; + $841 = $833 ^ $839; + $842 = $767 & $680; + $843 = $768 & $681; + $844 = $767 | $680; + $845 = $768 | $681; + $846 = $844 & $593; + $847 = $845 & $594; + $848 = $846 | $842; + $849 = $847 | $843; + $850 = (_i64Add(($840|0),($841|0),($848|0),($849|0))|0); + $851 = tempRet0; + $852 = (_i64Add(($818|0),($819|0),($506|0),($507|0))|0); + $853 = tempRet0; + $854 = (_i64Add(($850|0),($851|0),($818|0),($819|0))|0); + $855 = tempRet0; + $856 = (($i$29) + 8)|0; + $857 = ($856|0)<(80); + if ($857) { + $145 = $852;$146 = $853;$170 = $678;$171 = $765;$173 = $679;$174 = $766;$193 = $591;$194 = $592;$203 = $854;$204 = $855;$228 = $767;$230 = $768;$234 = $680;$236 = $681;$241 = $593;$242 = $594;$i$29 = $856; + } else { + break; + } + } + $858 = $r; + $859 = $858; + $860 = HEAP32[$859>>2]|0; + $861 = (($858) + 4)|0; + $862 = $861; + $863 = HEAP32[$862>>2]|0; + $864 = (_i64Add(($860|0),($863|0),($854|0),($855|0))|0); + $865 = tempRet0; + $866 = $r; + $867 = $866; + HEAP32[$867>>2] = $864; + $868 = (($866) + 4)|0; + $869 = $868; + HEAP32[$869>>2] = $865; + $870 = $96; + $871 = $870; + $872 = HEAP32[$871>>2]|0; + $873 = (($870) + 4)|0; + $874 = $873; + $875 = HEAP32[$874>>2]|0; + $876 = (_i64Add(($872|0),($875|0),($767|0),($768|0))|0); + $877 = tempRet0; + $878 = $96; + $879 = $878; + HEAP32[$879>>2] = $876; + $880 = (($878) + 4)|0; + $881 = $880; + HEAP32[$881>>2] = $877; + $882 = $103; + $883 = $882; + $884 = HEAP32[$883>>2]|0; + $885 = (($882) + 4)|0; + $886 = $885; + $887 = HEAP32[$886>>2]|0; + $888 = (_i64Add(($884|0),($887|0),($680|0),($681|0))|0); + $889 = tempRet0; + $890 = $103; + $891 = $890; + HEAP32[$891>>2] = $888; + $892 = (($890) + 4)|0; + $893 = $892; + HEAP32[$893>>2] = $889; + $894 = $110; + $895 = $894; + $896 = HEAP32[$895>>2]|0; + $897 = (($894) + 4)|0; + $898 = $897; + $899 = HEAP32[$898>>2]|0; + $900 = (_i64Add(($896|0),($899|0),($593|0),($594|0))|0); + $901 = tempRet0; + $902 = $110; + $903 = $902; + HEAP32[$903>>2] = $900; + $904 = (($902) + 4)|0; + $905 = $904; + HEAP32[$905>>2] = $901; + $906 = $117; + $907 = $906; + $908 = HEAP32[$907>>2]|0; + $909 = (($906) + 4)|0; + $910 = $909; + $911 = HEAP32[$910>>2]|0; + $912 = (_i64Add(($908|0),($911|0),($852|0),($853|0))|0); + $913 = tempRet0; + $914 = $117; + $915 = $914; + HEAP32[$915>>2] = $912; + $916 = (($914) + 4)|0; + $917 = $916; + HEAP32[$917>>2] = $913; + $918 = $124; + $919 = $918; + $920 = HEAP32[$919>>2]|0; + $921 = (($918) + 4)|0; + $922 = $921; + $923 = HEAP32[$922>>2]|0; + $924 = (_i64Add(($920|0),($923|0),($765|0),($766|0))|0); + $925 = tempRet0; + $926 = $124; + $927 = $926; + HEAP32[$927>>2] = $924; + $928 = (($926) + 4)|0; + $929 = $928; + HEAP32[$929>>2] = $925; + $930 = $131; + $931 = $930; + $932 = HEAP32[$931>>2]|0; + $933 = (($930) + 4)|0; + $934 = $933; + $935 = HEAP32[$934>>2]|0; + $936 = (_i64Add(($932|0),($935|0),($678|0),($679|0))|0); + $937 = tempRet0; + $938 = $131; + $939 = $938; + HEAP32[$939>>2] = $936; + $940 = (($938) + 4)|0; + $941 = $940; + HEAP32[$941>>2] = $937; + $942 = $138; + $943 = $942; + $944 = HEAP32[$943>>2]|0; + $945 = (($942) + 4)|0; + $946 = $945; + $947 = HEAP32[$946>>2]|0; + $948 = (_i64Add(($944|0),($947|0),($591|0),($592|0))|0); + $949 = tempRet0; + $950 = $138; + $951 = $950; + HEAP32[$951>>2] = $948; + $952 = (($950) + 4)|0; + $953 = $952; + HEAP32[$953>>2] = $949; + STACKTOP = sp;return; +} +function _sha384_close($cc,$dst,$rnum) { + $cc = $cc|0; + $dst = $dst|0; + $rnum = $rnum|0; + var label = 0, sp = 0; + sp = STACKTOP; + _sha384_addbits_and_close($cc,0,0,$dst,$rnum); + STACKTOP = sp;return; +} +function _sha384_addbits_and_close($cc,$ub,$n,$dst,$rnum) { + $cc = $cc|0; + $ub = $ub|0; + $n = $n|0; + $dst = $dst|0; + $rnum = $rnum|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0; + var $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0, $51 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, $exitcond = 0, $u$01 = 0, dest = 0, label = 0, sp = 0, stop = 0; + sp = STACKTOP; + $0 = (($cc) + 192|0); + $1 = $0; + $2 = $1; + $3 = HEAP32[$2>>2]|0; + $4 = (($1) + 4)|0; + $5 = $4; + $6 = HEAP32[$5>>2]|0; + $7 = $3 & 127; + $8 = 128 >>> $n; + $9 = (0 - ($8))|0; + $10 = $9 & $ub; + $11 = $10 | $8; + $12 = $11&255; + $13 = (($7) + 1)|0; + $14 = (($cc) + ($7)|0); + HEAP8[$14>>0] = $12; + $15 = ($13>>>0)>(112); + $16 = (($cc) + ($13)|0); + if ($15) { + $17 = $7 ^ 127; + _memset(($16|0),0,($17|0))|0; + $18 = (($cc) + 128|0); + _sha3_round($cc,$18); + dest=$cc+0|0; stop=dest+112|0; do { HEAP8[dest>>0]=0|0; dest=dest+1|0; } while ((dest|0) < (stop|0)); + } else { + $19 = (111 - ($7))|0; + _memset(($16|0),0,($19|0))|0; + } + $20 = (($cc) + 112|0); + $21 = $0; + $22 = $21; + $23 = HEAP32[$22>>2]|0; + $24 = (($21) + 4)|0; + $25 = $24; + $26 = HEAP32[$25>>2]|0; + $27 = (_bitshift64Lshr(($23|0),($26|0),61)|0); + $28 = tempRet0; + _sph_enc64be_aligned($20,$27,$28); + $29 = (($cc) + 120|0); + $30 = $0; + $31 = $30; + $32 = HEAP32[$31>>2]|0; + $33 = (($30) + 4)|0; + $34 = $33; + $35 = HEAP32[$34>>2]|0; + $36 = (_bitshift64Shl(($32|0),($35|0),3)|0); + $37 = tempRet0; + $38 = (_i64Add(($36|0),($37|0),($n|0),0)|0); + $39 = tempRet0; + _sph_enc64be_aligned($29,$38,$39); + $40 = (($cc) + 128|0); + _sha3_round($cc,$40); + $41 = ($rnum|0)==(0); + if ($41) { + STACKTOP = sp;return; + } else { + $u$01 = 0; + } + while(1) { + $42 = $u$01 << 3; + $43 = (($dst) + ($42)|0); + $44 = (($40) + ($u$01<<3)|0); + $45 = $44; + $46 = $45; + $47 = HEAP32[$46>>2]|0; + $48 = (($45) + 4)|0; + $49 = $48; + $50 = HEAP32[$49>>2]|0; + _sph_enc64be($43,$47,$50); + $51 = (($u$01) + 1)|0; + $exitcond = ($51|0)==($rnum|0); + if ($exitcond) { + break; + } else { + $u$01 = $51; + } + } + STACKTOP = sp;return; +} +function _sph_dec64be_aligned($src) { + $src = $src|0; + var $0 = 0, $1 = 0, $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0; + var $27 = 0, $28 = 0, $29 = 0, $3 = 0, $30 = 0, $31 = 0, $32 = 0, $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0; + var $45 = 0, $46 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = HEAP8[$src>>0]|0; + $1 = $0&255; + $2 = (_bitshift64Shl(($1|0),0,56)|0); + $3 = tempRet0; + $4 = (($src) + 1|0); + $5 = HEAP8[$4>>0]|0; + $6 = $5&255; + $7 = (_bitshift64Shl(($6|0),0,48)|0); + $8 = tempRet0; + $9 = $7 | $2; + $10 = $8 | $3; + $11 = (($src) + 2|0); + $12 = HEAP8[$11>>0]|0; + $13 = $12&255; + $14 = (_bitshift64Shl(($13|0),0,40)|0); + $15 = tempRet0; + $16 = $9 | $14; + $17 = $10 | $15; + $18 = (($src) + 3|0); + $19 = HEAP8[$18>>0]|0; + $20 = $19&255; + $21 = $17 | $20; + $22 = (($src) + 4|0); + $23 = HEAP8[$22>>0]|0; + $24 = $23&255; + $25 = (_bitshift64Shl(($24|0),0,24)|0); + $26 = tempRet0; + $27 = $16 | $25; + $28 = $21 | $26; + $29 = (($src) + 5|0); + $30 = HEAP8[$29>>0]|0; + $31 = $30&255; + $32 = (_bitshift64Shl(($31|0),0,16)|0); + $33 = tempRet0; + $34 = $27 | $32; + $35 = $28 | $33; + $36 = (($src) + 6|0); + $37 = HEAP8[$36>>0]|0; + $38 = $37&255; + $39 = (_bitshift64Shl(($38|0),0,8)|0); + $40 = tempRet0; + $41 = $34 | $39; + $42 = $35 | $40; + $43 = (($src) + 7|0); + $44 = HEAP8[$43>>0]|0; + $45 = $44&255; + $46 = $41 | $45; + tempRet0 = $42; + STACKTOP = sp;return ($46|0); +} +function _sph_enc64be_aligned($dst,$0,$1) { + $dst = $dst|0; + $0 = $0|0; + $1 = $1|0; + var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0; + var $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $2 = (_bitshift64Lshr(($0|0),($1|0),56)|0); + $3 = tempRet0; + $4 = $2&255; + HEAP8[$dst>>0] = $4; + $5 = (_bitshift64Lshr(($0|0),($1|0),48)|0); + $6 = tempRet0; + $7 = $5&255; + $8 = (($dst) + 1|0); + HEAP8[$8>>0] = $7; + $9 = (_bitshift64Lshr(($0|0),($1|0),40)|0); + $10 = tempRet0; + $11 = $9&255; + $12 = (($dst) + 2|0); + HEAP8[$12>>0] = $11; + $13 = $1&255; + $14 = (($dst) + 3|0); + HEAP8[$14>>0] = $13; + $15 = (_bitshift64Lshr(($0|0),($1|0),24)|0); + $16 = tempRet0; + $17 = $15&255; + $18 = (($dst) + 4|0); + HEAP8[$18>>0] = $17; + $19 = (_bitshift64Lshr(($0|0),($1|0),16)|0); + $20 = tempRet0; + $21 = $19&255; + $22 = (($dst) + 5|0); + HEAP8[$22>>0] = $21; + $23 = (_bitshift64Lshr(($0|0),($1|0),8)|0); + $24 = tempRet0; + $25 = $23&255; + $26 = (($dst) + 6|0); + HEAP8[$26>>0] = $25; + $27 = $0&255; + $28 = (($dst) + 7|0); + HEAP8[$28>>0] = $27; + STACKTOP = sp;return; +} +function _sph_enc64be($dst,$0,$1) { + $dst = $dst|0; + $0 = $0|0; + $1 = $1|0; + var $10 = 0, $11 = 0, $12 = 0, $13 = 0, $14 = 0, $15 = 0, $16 = 0, $17 = 0, $18 = 0, $19 = 0, $2 = 0, $20 = 0, $21 = 0, $22 = 0, $23 = 0, $24 = 0, $25 = 0, $26 = 0, $27 = 0, $28 = 0; + var $3 = 0, $4 = 0, $5 = 0, $6 = 0, $7 = 0, $8 = 0, $9 = 0, label = 0, sp = 0; + sp = STACKTOP; + $2 = (_bitshift64Lshr(($0|0),($1|0),56)|0); + $3 = tempRet0; + $4 = $2&255; + HEAP8[$dst>>0] = $4; + $5 = (_bitshift64Lshr(($0|0),($1|0),48)|0); + $6 = tempRet0; + $7 = $5&255; + $8 = (($dst) + 1|0); + HEAP8[$8>>0] = $7; + $9 = (_bitshift64Lshr(($0|0),($1|0),40)|0); + $10 = tempRet0; + $11 = $9&255; + $12 = (($dst) + 2|0); + HEAP8[$12>>0] = $11; + $13 = $1&255; + $14 = (($dst) + 3|0); + HEAP8[$14>>0] = $13; + $15 = (_bitshift64Lshr(($0|0),($1|0),24)|0); + $16 = tempRet0; + $17 = $15&255; + $18 = (($dst) + 4|0); + HEAP8[$18>>0] = $17; + $19 = (_bitshift64Lshr(($0|0),($1|0),16)|0); + $20 = tempRet0; + $21 = $19&255; + $22 = (($dst) + 5|0); + HEAP8[$22>>0] = $21; + $23 = (_bitshift64Lshr(($0|0),($1|0),8)|0); + $24 = tempRet0; + $25 = $23&255; + $26 = (($dst) + 6|0); + HEAP8[$26>>0] = $25; + $27 = $0&255; + $28 = (($dst) + 7|0); + HEAP8[$28>>0] = $27; + STACKTOP = sp;return; +} +function _malloc($bytes) { + $bytes = $bytes|0; + var $$pre = 0, $$pre$i = 0, $$pre$i$i = 0, $$pre$i23$i = 0, $$pre$i25 = 0, $$pre$phi$i$iZ2D = 0, $$pre$phi$i24$iZ2D = 0, $$pre$phi$i26Z2D = 0, $$pre$phi$iZ2D = 0, $$pre$phi59$i$iZ2D = 0, $$pre$phiZ2D = 0, $$pre105 = 0, $$pre58$i$i = 0, $$rsize$0$i = 0, $$rsize$3$i = 0, $$sum = 0, $$sum$i$i = 0, $$sum$i$i$i = 0, $$sum$i12$i = 0, $$sum$i13$i = 0; + var $$sum$i16$i = 0, $$sum$i19$i = 0, $$sum$i2338 = 0, $$sum$i32 = 0, $$sum$i39 = 0, $$sum1 = 0, $$sum1$i = 0, $$sum1$i$i = 0, $$sum1$i14$i = 0, $$sum1$i20$i = 0, $$sum1$i24 = 0, $$sum10 = 0, $$sum10$i = 0, $$sum10$i$i = 0, $$sum10$pre$i$i = 0, $$sum102$i = 0, $$sum103$i = 0, $$sum104$i = 0, $$sum105$i = 0, $$sum106$i = 0; + var $$sum107$i = 0, $$sum108$i = 0, $$sum109$i = 0, $$sum11$i = 0, $$sum11$i$i = 0, $$sum11$i22$i = 0, $$sum110$i = 0, $$sum111$i = 0, $$sum1112 = 0, $$sum112$i = 0, $$sum113$i = 0, $$sum114$i = 0, $$sum115$i = 0, $$sum12$i = 0, $$sum12$i$i = 0, $$sum13$i = 0, $$sum13$i$i = 0, $$sum14$i$i = 0, $$sum14$pre$i = 0, $$sum15$i = 0; + var $$sum15$i$i = 0, $$sum16$i = 0, $$sum16$i$i = 0, $$sum17$i = 0, $$sum17$i$i = 0, $$sum18$i = 0, $$sum1819$i$i = 0, $$sum2 = 0, $$sum2$i = 0, $$sum2$i$i = 0, $$sum2$i$i$i = 0, $$sum2$i15$i = 0, $$sum2$i17$i = 0, $$sum2$i21$i = 0, $$sum2$pre$i = 0, $$sum20$i$i = 0, $$sum21$i$i = 0, $$sum22$i$i = 0, $$sum23$i$i = 0, $$sum24$i$i = 0; + var $$sum25$i$i = 0, $$sum26$pre$i$i = 0, $$sum27$i$i = 0, $$sum28$i$i = 0, $$sum29$i$i = 0, $$sum3$i = 0, $$sum3$i$i = 0, $$sum3$i27 = 0, $$sum30$i$i = 0, $$sum3132$i$i = 0, $$sum34$i$i = 0, $$sum3536$i$i = 0, $$sum3738$i$i = 0, $$sum39$i$i = 0, $$sum4 = 0, $$sum4$i = 0, $$sum4$i28 = 0, $$sum40$i$i = 0, $$sum41$i$i = 0, $$sum42$i$i = 0; + var $$sum5$i = 0, $$sum5$i$i = 0, $$sum56 = 0, $$sum6$i = 0, $$sum67$i$i = 0, $$sum7$i = 0, $$sum8$i = 0, $$sum8$pre = 0, $$sum9 = 0, $$sum9$i = 0, $$sum9$i$i = 0, $$tsize$1$i = 0, $$v$0$i = 0, $0 = 0, $1 = 0, $10 = 0, $100 = 0, $1000 = 0, $1001 = 0, $1002 = 0; + var $1003 = 0, $1004 = 0, $1005 = 0, $1006 = 0, $1007 = 0, $1008 = 0, $1009 = 0, $101 = 0, $1010 = 0, $1011 = 0, $1012 = 0, $1013 = 0, $1014 = 0, $1015 = 0, $1016 = 0, $1017 = 0, $1018 = 0, $1019 = 0, $102 = 0, $1020 = 0; + var $1021 = 0, $1022 = 0, $1023 = 0, $1024 = 0, $1025 = 0, $1026 = 0, $1027 = 0, $1028 = 0, $1029 = 0, $103 = 0, $1030 = 0, $1031 = 0, $1032 = 0, $1033 = 0, $1034 = 0, $1035 = 0, $1036 = 0, $1037 = 0, $1038 = 0, $1039 = 0; + var $104 = 0, $1040 = 0, $1041 = 0, $1042 = 0, $1043 = 0, $1044 = 0, $1045 = 0, $1046 = 0, $1047 = 0, $1048 = 0, $1049 = 0, $105 = 0, $1050 = 0, $1051 = 0, $1052 = 0, $1053 = 0, $1054 = 0, $1055 = 0, $1056 = 0, $1057 = 0; + var $1058 = 0, $1059 = 0, $106 = 0, $1060 = 0, $1061 = 0, $1062 = 0, $1063 = 0, $1064 = 0, $1065 = 0, $1066 = 0, $1067 = 0, $1068 = 0, $1069 = 0, $107 = 0, $1070 = 0, $1071 = 0, $1072 = 0, $1073 = 0, $1074 = 0, $108 = 0; + var $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0, $124 = 0, $125 = 0, $126 = 0; + var $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0, $142 = 0, $143 = 0, $144 = 0; + var $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0, $160 = 0, $161 = 0, $162 = 0; + var $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0, $179 = 0, $18 = 0, $180 = 0; + var $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0, $197 = 0, $198 = 0, $199 = 0; + var $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0, $214 = 0, $215 = 0, $216 = 0; + var $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0, $232 = 0, $233 = 0, $234 = 0; + var $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0, $250 = 0, $251 = 0, $252 = 0; + var $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0, $269 = 0, $27 = 0, $270 = 0; + var $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0, $287 = 0, $288 = 0, $289 = 0; + var $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0, $304 = 0, $305 = 0, $306 = 0; + var $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0, $322 = 0, $323 = 0, $324 = 0; + var $325 = 0, $326 = 0, $327 = 0, $328 = 0, $329 = 0, $33 = 0, $330 = 0, $331 = 0, $332 = 0, $333 = 0, $334 = 0, $335 = 0, $336 = 0, $337 = 0, $338 = 0, $339 = 0, $34 = 0, $340 = 0, $341 = 0, $342 = 0; + var $343 = 0, $344 = 0, $345 = 0, $346 = 0, $347 = 0, $348 = 0, $349 = 0, $35 = 0, $350 = 0, $351 = 0, $352 = 0, $353 = 0, $354 = 0, $355 = 0, $356 = 0, $357 = 0, $358 = 0, $359 = 0, $36 = 0, $360 = 0; + var $361 = 0, $362 = 0, $363 = 0, $364 = 0, $365 = 0, $366 = 0, $367 = 0, $368 = 0, $369 = 0, $37 = 0, $370 = 0, $371 = 0, $372 = 0, $373 = 0, $374 = 0, $375 = 0, $376 = 0, $377 = 0, $378 = 0, $379 = 0; + var $38 = 0, $380 = 0, $381 = 0, $382 = 0, $383 = 0, $384 = 0, $385 = 0, $386 = 0, $387 = 0, $388 = 0, $389 = 0, $39 = 0, $390 = 0, $391 = 0, $392 = 0, $393 = 0, $394 = 0, $395 = 0, $396 = 0, $397 = 0; + var $398 = 0, $399 = 0, $4 = 0, $40 = 0, $400 = 0, $401 = 0, $402 = 0, $403 = 0, $404 = 0, $405 = 0, $406 = 0, $407 = 0, $408 = 0, $409 = 0, $41 = 0, $410 = 0, $411 = 0, $412 = 0, $413 = 0, $414 = 0; + var $415 = 0, $416 = 0, $417 = 0, $418 = 0, $419 = 0, $42 = 0, $420 = 0, $421 = 0, $422 = 0, $423 = 0, $424 = 0, $425 = 0, $426 = 0, $427 = 0, $428 = 0, $429 = 0, $43 = 0, $430 = 0, $431 = 0, $432 = 0; + var $433 = 0, $434 = 0, $435 = 0, $436 = 0, $437 = 0, $438 = 0, $439 = 0, $44 = 0, $440 = 0, $441 = 0, $442 = 0, $443 = 0, $444 = 0, $445 = 0, $446 = 0, $447 = 0, $448 = 0, $449 = 0, $45 = 0, $450 = 0; + var $451 = 0, $452 = 0, $453 = 0, $454 = 0, $455 = 0, $456 = 0, $457 = 0, $458 = 0, $459 = 0, $46 = 0, $460 = 0, $461 = 0, $462 = 0, $463 = 0, $464 = 0, $465 = 0, $466 = 0, $467 = 0, $468 = 0, $469 = 0; + var $47 = 0, $470 = 0, $471 = 0, $472 = 0, $473 = 0, $474 = 0, $475 = 0, $476 = 0, $477 = 0, $478 = 0, $479 = 0, $48 = 0, $480 = 0, $481 = 0, $482 = 0, $483 = 0, $484 = 0, $485 = 0, $486 = 0, $487 = 0; + var $488 = 0, $489 = 0, $49 = 0, $490 = 0, $491 = 0, $492 = 0, $493 = 0, $494 = 0, $495 = 0, $496 = 0, $497 = 0, $498 = 0, $499 = 0, $5 = 0, $50 = 0, $500 = 0, $501 = 0, $502 = 0, $503 = 0, $504 = 0; + var $505 = 0, $506 = 0, $507 = 0, $508 = 0, $509 = 0, $51 = 0, $510 = 0, $511 = 0, $512 = 0, $513 = 0, $514 = 0, $515 = 0, $516 = 0, $517 = 0, $518 = 0, $519 = 0, $52 = 0, $520 = 0, $521 = 0, $522 = 0; + var $523 = 0, $524 = 0, $525 = 0, $526 = 0, $527 = 0, $528 = 0, $529 = 0, $53 = 0, $530 = 0, $531 = 0, $532 = 0, $533 = 0, $534 = 0, $535 = 0, $536 = 0, $537 = 0, $538 = 0, $539 = 0, $54 = 0, $540 = 0; + var $541 = 0, $542 = 0, $543 = 0, $544 = 0, $545 = 0, $546 = 0, $547 = 0, $548 = 0, $549 = 0, $55 = 0, $550 = 0, $551 = 0, $552 = 0, $553 = 0, $554 = 0, $555 = 0, $556 = 0, $557 = 0, $558 = 0, $559 = 0; + var $56 = 0, $560 = 0, $561 = 0, $562 = 0, $563 = 0, $564 = 0, $565 = 0, $566 = 0, $567 = 0, $568 = 0, $569 = 0, $57 = 0, $570 = 0, $571 = 0, $572 = 0, $573 = 0, $574 = 0, $575 = 0, $576 = 0, $577 = 0; + var $578 = 0, $579 = 0, $58 = 0, $580 = 0, $581 = 0, $582 = 0, $583 = 0, $584 = 0, $585 = 0, $586 = 0, $587 = 0, $588 = 0, $589 = 0, $59 = 0, $590 = 0, $591 = 0, $592 = 0, $593 = 0, $594 = 0, $595 = 0; + var $596 = 0, $597 = 0, $598 = 0, $599 = 0, $6 = 0, $60 = 0, $600 = 0, $601 = 0, $602 = 0, $603 = 0, $604 = 0, $605 = 0, $606 = 0, $607 = 0, $608 = 0, $609 = 0, $61 = 0, $610 = 0, $611 = 0, $612 = 0; + var $613 = 0, $614 = 0, $615 = 0, $616 = 0, $617 = 0, $618 = 0, $619 = 0, $62 = 0, $620 = 0, $621 = 0, $622 = 0, $623 = 0, $624 = 0, $625 = 0, $626 = 0, $627 = 0, $628 = 0, $629 = 0, $63 = 0, $630 = 0; + var $631 = 0, $632 = 0, $633 = 0, $634 = 0, $635 = 0, $636 = 0, $637 = 0, $638 = 0, $639 = 0, $64 = 0, $640 = 0, $641 = 0, $642 = 0, $643 = 0, $644 = 0, $645 = 0, $646 = 0, $647 = 0, $648 = 0, $649 = 0; + var $65 = 0, $650 = 0, $651 = 0, $652 = 0, $653 = 0, $654 = 0, $655 = 0, $656 = 0, $657 = 0, $658 = 0, $659 = 0, $66 = 0, $660 = 0, $661 = 0, $662 = 0, $663 = 0, $664 = 0, $665 = 0, $666 = 0, $667 = 0; + var $668 = 0, $669 = 0, $67 = 0, $670 = 0, $671 = 0, $672 = 0, $673 = 0, $674 = 0, $675 = 0, $676 = 0, $677 = 0, $678 = 0, $679 = 0, $68 = 0, $680 = 0, $681 = 0, $682 = 0, $683 = 0, $684 = 0, $685 = 0; + var $686 = 0, $687 = 0, $688 = 0, $689 = 0, $69 = 0, $690 = 0, $691 = 0, $692 = 0, $693 = 0, $694 = 0, $695 = 0, $696 = 0, $697 = 0, $698 = 0, $699 = 0, $7 = 0, $70 = 0, $700 = 0, $701 = 0, $702 = 0; + var $703 = 0, $704 = 0, $705 = 0, $706 = 0, $707 = 0, $708 = 0, $709 = 0, $71 = 0, $710 = 0, $711 = 0, $712 = 0, $713 = 0, $714 = 0, $715 = 0, $716 = 0, $717 = 0, $718 = 0, $719 = 0, $72 = 0, $720 = 0; + var $721 = 0, $722 = 0, $723 = 0, $724 = 0, $725 = 0, $726 = 0, $727 = 0, $728 = 0, $729 = 0, $73 = 0, $730 = 0, $731 = 0, $732 = 0, $733 = 0, $734 = 0, $735 = 0, $736 = 0, $737 = 0, $738 = 0, $739 = 0; + var $74 = 0, $740 = 0, $741 = 0, $742 = 0, $743 = 0, $744 = 0, $745 = 0, $746 = 0, $747 = 0, $748 = 0, $749 = 0, $75 = 0, $750 = 0, $751 = 0, $752 = 0, $753 = 0, $754 = 0, $755 = 0, $756 = 0, $757 = 0; + var $758 = 0, $759 = 0, $76 = 0, $760 = 0, $761 = 0, $762 = 0, $763 = 0, $764 = 0, $765 = 0, $766 = 0, $767 = 0, $768 = 0, $769 = 0, $77 = 0, $770 = 0, $771 = 0, $772 = 0, $773 = 0, $774 = 0, $775 = 0; + var $776 = 0, $777 = 0, $778 = 0, $779 = 0, $78 = 0, $780 = 0, $781 = 0, $782 = 0, $783 = 0, $784 = 0, $785 = 0, $786 = 0, $787 = 0, $788 = 0, $789 = 0, $79 = 0, $790 = 0, $791 = 0, $792 = 0, $793 = 0; + var $794 = 0, $795 = 0, $796 = 0, $797 = 0, $798 = 0, $799 = 0, $8 = 0, $80 = 0, $800 = 0, $801 = 0, $802 = 0, $803 = 0, $804 = 0, $805 = 0, $806 = 0, $807 = 0, $808 = 0, $809 = 0, $81 = 0, $810 = 0; + var $811 = 0, $812 = 0, $813 = 0, $814 = 0, $815 = 0, $816 = 0, $817 = 0, $818 = 0, $819 = 0, $82 = 0, $820 = 0, $821 = 0, $822 = 0, $823 = 0, $824 = 0, $825 = 0, $826 = 0, $827 = 0, $828 = 0, $829 = 0; + var $83 = 0, $830 = 0, $831 = 0, $832 = 0, $833 = 0, $834 = 0, $835 = 0, $836 = 0, $837 = 0, $838 = 0, $839 = 0, $84 = 0, $840 = 0, $841 = 0, $842 = 0, $843 = 0, $844 = 0, $845 = 0, $846 = 0, $847 = 0; + var $848 = 0, $849 = 0, $85 = 0, $850 = 0, $851 = 0, $852 = 0, $853 = 0, $854 = 0, $855 = 0, $856 = 0, $857 = 0, $858 = 0, $859 = 0, $86 = 0, $860 = 0, $861 = 0, $862 = 0, $863 = 0, $864 = 0, $865 = 0; + var $866 = 0, $867 = 0, $868 = 0, $869 = 0, $87 = 0, $870 = 0, $871 = 0, $872 = 0, $873 = 0, $874 = 0, $875 = 0, $876 = 0, $877 = 0, $878 = 0, $879 = 0, $88 = 0, $880 = 0, $881 = 0, $882 = 0, $883 = 0; + var $884 = 0, $885 = 0, $886 = 0, $887 = 0, $888 = 0, $889 = 0, $89 = 0, $890 = 0, $891 = 0, $892 = 0, $893 = 0, $894 = 0, $895 = 0, $896 = 0, $897 = 0, $898 = 0, $899 = 0, $9 = 0, $90 = 0, $900 = 0; + var $901 = 0, $902 = 0, $903 = 0, $904 = 0, $905 = 0, $906 = 0, $907 = 0, $908 = 0, $909 = 0, $91 = 0, $910 = 0, $911 = 0, $912 = 0, $913 = 0, $914 = 0, $915 = 0, $916 = 0, $917 = 0, $918 = 0, $919 = 0; + var $92 = 0, $920 = 0, $921 = 0, $922 = 0, $923 = 0, $924 = 0, $925 = 0, $926 = 0, $927 = 0, $928 = 0, $929 = 0, $93 = 0, $930 = 0, $931 = 0, $932 = 0, $933 = 0, $934 = 0, $935 = 0, $936 = 0, $937 = 0; + var $938 = 0, $939 = 0, $94 = 0, $940 = 0, $941 = 0, $942 = 0, $943 = 0, $944 = 0, $945 = 0, $946 = 0, $947 = 0, $948 = 0, $949 = 0, $95 = 0, $950 = 0, $951 = 0, $952 = 0, $953 = 0, $954 = 0, $955 = 0; + var $956 = 0, $957 = 0, $958 = 0, $959 = 0, $96 = 0, $960 = 0, $961 = 0, $962 = 0, $963 = 0, $964 = 0, $965 = 0, $966 = 0, $967 = 0, $968 = 0, $969 = 0, $97 = 0, $970 = 0, $971 = 0, $972 = 0, $973 = 0; + var $974 = 0, $975 = 0, $976 = 0, $977 = 0, $978 = 0, $979 = 0, $98 = 0, $980 = 0, $981 = 0, $982 = 0, $983 = 0, $984 = 0, $985 = 0, $986 = 0, $987 = 0, $988 = 0, $989 = 0, $99 = 0, $990 = 0, $991 = 0; + var $992 = 0, $993 = 0, $994 = 0, $995 = 0, $996 = 0, $997 = 0, $998 = 0, $999 = 0, $F$0$i$i = 0, $F1$0$i = 0, $F4$0 = 0, $F4$0$i$i = 0, $F5$0$i = 0, $I1$0$c$i$i = 0, $I1$0$i$i = 0, $I7$0$i = 0, $I7$0$i$i = 0, $K12$027$i = 0, $K2$015$i$i = 0, $K8$053$i$i = 0; + var $R$0$i = 0, $R$0$i$i = 0, $R$0$i18 = 0, $R$1$i = 0, $R$1$i$i = 0, $R$1$i20 = 0, $RP$0$i = 0, $RP$0$i$i = 0, $RP$0$i17 = 0, $T$0$lcssa$i = 0, $T$0$lcssa$i$i = 0, $T$0$lcssa$i26$i = 0, $T$014$i$i = 0, $T$026$i = 0, $T$052$i$i = 0, $br$0$i = 0, $br$030$i = 0, $cond$i = 0, $cond$i$i = 0, $cond$i21 = 0; + var $exitcond$i$i = 0, $i$02$i$i = 0, $idx$0$i = 0, $mem$0 = 0, $nb$0 = 0, $oldfirst$0$i$i = 0, $or$cond$i = 0, $or$cond$i$i = 0, $or$cond$i27$i = 0, $or$cond$i29 = 0, $or$cond1$i = 0, $or$cond19$i = 0, $or$cond2$i = 0, $or$cond24$i = 0, $or$cond3$i = 0, $or$cond4$i = 0, $or$cond47$i = 0, $or$cond5$i = 0, $or$cond6$i = 0, $or$cond8$i = 0; + var $qsize$0$i$i = 0, $rsize$0$i = 0, $rsize$0$i15 = 0, $rsize$1$i = 0, $rsize$2$i = 0, $rsize$3$lcssa$i = 0, $rsize$331$i = 0, $rst$0$i = 0, $rst$1$i = 0, $sizebits$0$i = 0, $sp$0$i$i = 0, $sp$0$i$i$i = 0, $sp$073$i = 0, $sp$166$i = 0, $ssize$0$i = 0, $ssize$1$i = 0, $ssize$129$i = 0, $ssize$2$i = 0, $t$0$i = 0, $t$0$i14 = 0; + var $t$1$i = 0, $t$2$ph$i = 0, $t$2$v$3$i = 0, $t$230$i = 0, $tbase$245$i = 0, $tsize$03141$i = 0, $tsize$1$i = 0, $tsize$244$i = 0, $v$0$i = 0, $v$0$i16 = 0, $v$1$i = 0, $v$2$i = 0, $v$3$lcssa$i = 0, $v$332$i = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = ($bytes>>>0)<(245); + do { + if ($0) { + $1 = ($bytes>>>0)<(11); + if ($1) { + $5 = 16; + } else { + $2 = (($bytes) + 11)|0; + $3 = $2 & -8; + $5 = $3; + } + $4 = $5 >>> 3; + $6 = HEAP32[32544>>2]|0; + $7 = $6 >>> $4; + $8 = $7 & 3; + $9 = ($8|0)==(0); + if (!($9)) { + $10 = $7 & 1; + $11 = $10 ^ 1; + $12 = (($11) + ($4))|0; + $13 = $12 << 1; + $14 = ((32544 + ($13<<2)|0) + 40|0); + $$sum10 = (($13) + 2)|0; + $15 = ((32544 + ($$sum10<<2)|0) + 40|0); + $16 = HEAP32[$15>>2]|0; + $17 = (($16) + 8|0); + $18 = HEAP32[$17>>2]|0; + $19 = ($14|0)==($18|0); + do { + if ($19) { + $20 = 1 << $12; + $21 = $20 ^ -1; + $22 = $6 & $21; + HEAP32[32544>>2] = $22; + } else { + $23 = HEAP32[((32544 + 16|0))>>2]|0; + $24 = ($18>>>0)<($23>>>0); + if ($24) { + _abort(); + // unreachable; + } + $25 = (($18) + 12|0); + $26 = HEAP32[$25>>2]|0; + $27 = ($26|0)==($16|0); + if ($27) { + HEAP32[$25>>2] = $14; + HEAP32[$15>>2] = $18; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $28 = $12 << 3; + $29 = $28 | 3; + $30 = (($16) + 4|0); + HEAP32[$30>>2] = $29; + $$sum1112 = $28 | 4; + $31 = (($16) + ($$sum1112)|0); + $32 = HEAP32[$31>>2]|0; + $33 = $32 | 1; + HEAP32[$31>>2] = $33; + $mem$0 = $17; + STACKTOP = sp;return ($mem$0|0); + } + $34 = HEAP32[((32544 + 8|0))>>2]|0; + $35 = ($5>>>0)>($34>>>0); + if ($35) { + $36 = ($7|0)==(0); + if (!($36)) { + $37 = $7 << $4; + $38 = 2 << $4; + $39 = (0 - ($38))|0; + $40 = $38 | $39; + $41 = $37 & $40; + $42 = (0 - ($41))|0; + $43 = $41 & $42; + $44 = (($43) + -1)|0; + $45 = $44 >>> 12; + $46 = $45 & 16; + $47 = $44 >>> $46; + $48 = $47 >>> 5; + $49 = $48 & 8; + $50 = $49 | $46; + $51 = $47 >>> $49; + $52 = $51 >>> 2; + $53 = $52 & 4; + $54 = $50 | $53; + $55 = $51 >>> $53; + $56 = $55 >>> 1; + $57 = $56 & 2; + $58 = $54 | $57; + $59 = $55 >>> $57; + $60 = $59 >>> 1; + $61 = $60 & 1; + $62 = $58 | $61; + $63 = $59 >>> $61; + $64 = (($62) + ($63))|0; + $65 = $64 << 1; + $66 = ((32544 + ($65<<2)|0) + 40|0); + $$sum4 = (($65) + 2)|0; + $67 = ((32544 + ($$sum4<<2)|0) + 40|0); + $68 = HEAP32[$67>>2]|0; + $69 = (($68) + 8|0); + $70 = HEAP32[$69>>2]|0; + $71 = ($66|0)==($70|0); + do { + if ($71) { + $72 = 1 << $64; + $73 = $72 ^ -1; + $74 = $6 & $73; + HEAP32[32544>>2] = $74; + $88 = $34; + } else { + $75 = HEAP32[((32544 + 16|0))>>2]|0; + $76 = ($70>>>0)<($75>>>0); + if ($76) { + _abort(); + // unreachable; + } + $77 = (($70) + 12|0); + $78 = HEAP32[$77>>2]|0; + $79 = ($78|0)==($68|0); + if ($79) { + HEAP32[$77>>2] = $66; + HEAP32[$67>>2] = $70; + $$pre = HEAP32[((32544 + 8|0))>>2]|0; + $88 = $$pre; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $80 = $64 << 3; + $81 = (($80) - ($5))|0; + $82 = $5 | 3; + $83 = (($68) + 4|0); + HEAP32[$83>>2] = $82; + $84 = (($68) + ($5)|0); + $85 = $81 | 1; + $$sum56 = $5 | 4; + $86 = (($68) + ($$sum56)|0); + HEAP32[$86>>2] = $85; + $87 = (($68) + ($80)|0); + HEAP32[$87>>2] = $81; + $89 = ($88|0)==(0); + if (!($89)) { + $90 = HEAP32[((32544 + 20|0))>>2]|0; + $91 = $88 >>> 3; + $92 = $91 << 1; + $93 = ((32544 + ($92<<2)|0) + 40|0); + $94 = HEAP32[32544>>2]|0; + $95 = 1 << $91; + $96 = $94 & $95; + $97 = ($96|0)==(0); + if ($97) { + $98 = $94 | $95; + HEAP32[32544>>2] = $98; + $$sum8$pre = (($92) + 2)|0; + $$pre105 = ((32544 + ($$sum8$pre<<2)|0) + 40|0); + $$pre$phiZ2D = $$pre105;$F4$0 = $93; + } else { + $$sum9 = (($92) + 2)|0; + $99 = ((32544 + ($$sum9<<2)|0) + 40|0); + $100 = HEAP32[$99>>2]|0; + $101 = HEAP32[((32544 + 16|0))>>2]|0; + $102 = ($100>>>0)<($101>>>0); + if ($102) { + _abort(); + // unreachable; + } else { + $$pre$phiZ2D = $99;$F4$0 = $100; + } + } + HEAP32[$$pre$phiZ2D>>2] = $90; + $103 = (($F4$0) + 12|0); + HEAP32[$103>>2] = $90; + $104 = (($90) + 8|0); + HEAP32[$104>>2] = $F4$0; + $105 = (($90) + 12|0); + HEAP32[$105>>2] = $93; + } + HEAP32[((32544 + 8|0))>>2] = $81; + HEAP32[((32544 + 20|0))>>2] = $84; + $mem$0 = $69; + STACKTOP = sp;return ($mem$0|0); + } + $106 = HEAP32[((32544 + 4|0))>>2]|0; + $107 = ($106|0)==(0); + if ($107) { + $nb$0 = $5; + } else { + $108 = (0 - ($106))|0; + $109 = $106 & $108; + $110 = (($109) + -1)|0; + $111 = $110 >>> 12; + $112 = $111 & 16; + $113 = $110 >>> $112; + $114 = $113 >>> 5; + $115 = $114 & 8; + $116 = $115 | $112; + $117 = $113 >>> $115; + $118 = $117 >>> 2; + $119 = $118 & 4; + $120 = $116 | $119; + $121 = $117 >>> $119; + $122 = $121 >>> 1; + $123 = $122 & 2; + $124 = $120 | $123; + $125 = $121 >>> $123; + $126 = $125 >>> 1; + $127 = $126 & 1; + $128 = $124 | $127; + $129 = $125 >>> $127; + $130 = (($128) + ($129))|0; + $131 = ((32544 + ($130<<2)|0) + 304|0); + $132 = HEAP32[$131>>2]|0; + $133 = (($132) + 4|0); + $134 = HEAP32[$133>>2]|0; + $135 = $134 & -8; + $136 = (($135) - ($5))|0; + $rsize$0$i = $136;$t$0$i = $132;$v$0$i = $132; + while(1) { + $137 = (($t$0$i) + 16|0); + $138 = HEAP32[$137>>2]|0; + $139 = ($138|0)==(0|0); + if ($139) { + $140 = (($t$0$i) + 20|0); + $141 = HEAP32[$140>>2]|0; + $142 = ($141|0)==(0|0); + if ($142) { + break; + } else { + $144 = $141; + } + } else { + $144 = $138; + } + $143 = (($144) + 4|0); + $145 = HEAP32[$143>>2]|0; + $146 = $145 & -8; + $147 = (($146) - ($5))|0; + $148 = ($147>>>0)<($rsize$0$i>>>0); + $$rsize$0$i = $148 ? $147 : $rsize$0$i; + $$v$0$i = $148 ? $144 : $v$0$i; + $rsize$0$i = $$rsize$0$i;$t$0$i = $144;$v$0$i = $$v$0$i; + } + $149 = HEAP32[((32544 + 16|0))>>2]|0; + $150 = ($v$0$i>>>0)<($149>>>0); + if ($150) { + _abort(); + // unreachable; + } + $151 = (($v$0$i) + ($5)|0); + $152 = ($v$0$i>>>0)<($151>>>0); + if (!($152)) { + _abort(); + // unreachable; + } + $153 = (($v$0$i) + 24|0); + $154 = HEAP32[$153>>2]|0; + $155 = (($v$0$i) + 12|0); + $156 = HEAP32[$155>>2]|0; + $157 = ($156|0)==($v$0$i|0); + do { + if ($157) { + $167 = (($v$0$i) + 20|0); + $168 = HEAP32[$167>>2]|0; + $169 = ($168|0)==(0|0); + if ($169) { + $170 = (($v$0$i) + 16|0); + $171 = HEAP32[$170>>2]|0; + $172 = ($171|0)==(0|0); + if ($172) { + $R$1$i = 0; + break; + } else { + $R$0$i = $171;$RP$0$i = $170; + } + } else { + $R$0$i = $168;$RP$0$i = $167; + } + while(1) { + $173 = (($R$0$i) + 20|0); + $174 = HEAP32[$173>>2]|0; + $175 = ($174|0)==(0|0); + if (!($175)) { + $R$0$i = $174;$RP$0$i = $173; + continue; + } + $176 = (($R$0$i) + 16|0); + $177 = HEAP32[$176>>2]|0; + $178 = ($177|0)==(0|0); + if ($178) { + break; + } else { + $R$0$i = $177;$RP$0$i = $176; + } + } + $179 = ($RP$0$i>>>0)<($149>>>0); + if ($179) { + _abort(); + // unreachable; + } else { + HEAP32[$RP$0$i>>2] = 0; + $R$1$i = $R$0$i; + break; + } + } else { + $158 = (($v$0$i) + 8|0); + $159 = HEAP32[$158>>2]|0; + $160 = ($159>>>0)<($149>>>0); + if ($160) { + _abort(); + // unreachable; + } + $161 = (($159) + 12|0); + $162 = HEAP32[$161>>2]|0; + $163 = ($162|0)==($v$0$i|0); + if (!($163)) { + _abort(); + // unreachable; + } + $164 = (($156) + 8|0); + $165 = HEAP32[$164>>2]|0; + $166 = ($165|0)==($v$0$i|0); + if ($166) { + HEAP32[$161>>2] = $156; + HEAP32[$164>>2] = $159; + $R$1$i = $156; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $180 = ($154|0)==(0|0); + do { + if (!($180)) { + $181 = (($v$0$i) + 28|0); + $182 = HEAP32[$181>>2]|0; + $183 = ((32544 + ($182<<2)|0) + 304|0); + $184 = HEAP32[$183>>2]|0; + $185 = ($v$0$i|0)==($184|0); + if ($185) { + HEAP32[$183>>2] = $R$1$i; + $cond$i = ($R$1$i|0)==(0|0); + if ($cond$i) { + $186 = 1 << $182; + $187 = $186 ^ -1; + $188 = HEAP32[((32544 + 4|0))>>2]|0; + $189 = $188 & $187; + HEAP32[((32544 + 4|0))>>2] = $189; + break; + } + } else { + $190 = HEAP32[((32544 + 16|0))>>2]|0; + $191 = ($154>>>0)<($190>>>0); + if ($191) { + _abort(); + // unreachable; + } + $192 = (($154) + 16|0); + $193 = HEAP32[$192>>2]|0; + $194 = ($193|0)==($v$0$i|0); + if ($194) { + HEAP32[$192>>2] = $R$1$i; + } else { + $195 = (($154) + 20|0); + HEAP32[$195>>2] = $R$1$i; + } + $196 = ($R$1$i|0)==(0|0); + if ($196) { + break; + } + } + $197 = HEAP32[((32544 + 16|0))>>2]|0; + $198 = ($R$1$i>>>0)<($197>>>0); + if ($198) { + _abort(); + // unreachable; + } + $199 = (($R$1$i) + 24|0); + HEAP32[$199>>2] = $154; + $200 = (($v$0$i) + 16|0); + $201 = HEAP32[$200>>2]|0; + $202 = ($201|0)==(0|0); + do { + if (!($202)) { + $203 = ($201>>>0)<($197>>>0); + if ($203) { + _abort(); + // unreachable; + } else { + $204 = (($R$1$i) + 16|0); + HEAP32[$204>>2] = $201; + $205 = (($201) + 24|0); + HEAP32[$205>>2] = $R$1$i; + break; + } + } + } while(0); + $206 = (($v$0$i) + 20|0); + $207 = HEAP32[$206>>2]|0; + $208 = ($207|0)==(0|0); + if (!($208)) { + $209 = HEAP32[((32544 + 16|0))>>2]|0; + $210 = ($207>>>0)<($209>>>0); + if ($210) { + _abort(); + // unreachable; + } else { + $211 = (($R$1$i) + 20|0); + HEAP32[$211>>2] = $207; + $212 = (($207) + 24|0); + HEAP32[$212>>2] = $R$1$i; + break; + } + } + } + } while(0); + $213 = ($rsize$0$i>>>0)<(16); + if ($213) { + $214 = (($rsize$0$i) + ($5))|0; + $215 = $214 | 3; + $216 = (($v$0$i) + 4|0); + HEAP32[$216>>2] = $215; + $$sum4$i = (($214) + 4)|0; + $217 = (($v$0$i) + ($$sum4$i)|0); + $218 = HEAP32[$217>>2]|0; + $219 = $218 | 1; + HEAP32[$217>>2] = $219; + } else { + $220 = $5 | 3; + $221 = (($v$0$i) + 4|0); + HEAP32[$221>>2] = $220; + $222 = $rsize$0$i | 1; + $$sum$i39 = $5 | 4; + $223 = (($v$0$i) + ($$sum$i39)|0); + HEAP32[$223>>2] = $222; + $$sum1$i = (($rsize$0$i) + ($5))|0; + $224 = (($v$0$i) + ($$sum1$i)|0); + HEAP32[$224>>2] = $rsize$0$i; + $225 = HEAP32[((32544 + 8|0))>>2]|0; + $226 = ($225|0)==(0); + if (!($226)) { + $227 = HEAP32[((32544 + 20|0))>>2]|0; + $228 = $225 >>> 3; + $229 = $228 << 1; + $230 = ((32544 + ($229<<2)|0) + 40|0); + $231 = HEAP32[32544>>2]|0; + $232 = 1 << $228; + $233 = $231 & $232; + $234 = ($233|0)==(0); + if ($234) { + $235 = $231 | $232; + HEAP32[32544>>2] = $235; + $$sum2$pre$i = (($229) + 2)|0; + $$pre$i = ((32544 + ($$sum2$pre$i<<2)|0) + 40|0); + $$pre$phi$iZ2D = $$pre$i;$F1$0$i = $230; + } else { + $$sum3$i = (($229) + 2)|0; + $236 = ((32544 + ($$sum3$i<<2)|0) + 40|0); + $237 = HEAP32[$236>>2]|0; + $238 = HEAP32[((32544 + 16|0))>>2]|0; + $239 = ($237>>>0)<($238>>>0); + if ($239) { + _abort(); + // unreachable; + } else { + $$pre$phi$iZ2D = $236;$F1$0$i = $237; + } + } + HEAP32[$$pre$phi$iZ2D>>2] = $227; + $240 = (($F1$0$i) + 12|0); + HEAP32[$240>>2] = $227; + $241 = (($227) + 8|0); + HEAP32[$241>>2] = $F1$0$i; + $242 = (($227) + 12|0); + HEAP32[$242>>2] = $230; + } + HEAP32[((32544 + 8|0))>>2] = $rsize$0$i; + HEAP32[((32544 + 20|0))>>2] = $151; + } + $243 = (($v$0$i) + 8|0); + $mem$0 = $243; + STACKTOP = sp;return ($mem$0|0); + } + } else { + $nb$0 = $5; + } + } else { + $244 = ($bytes>>>0)>(4294967231); + if ($244) { + $nb$0 = -1; + } else { + $245 = (($bytes) + 11)|0; + $246 = $245 & -8; + $247 = HEAP32[((32544 + 4|0))>>2]|0; + $248 = ($247|0)==(0); + if ($248) { + $nb$0 = $246; + } else { + $249 = (0 - ($246))|0; + $250 = $245 >>> 8; + $251 = ($250|0)==(0); + if ($251) { + $idx$0$i = 0; + } else { + $252 = ($246>>>0)>(16777215); + if ($252) { + $idx$0$i = 31; + } else { + $253 = (($250) + 1048320)|0; + $254 = $253 >>> 16; + $255 = $254 & 8; + $256 = $250 << $255; + $257 = (($256) + 520192)|0; + $258 = $257 >>> 16; + $259 = $258 & 4; + $260 = $259 | $255; + $261 = $256 << $259; + $262 = (($261) + 245760)|0; + $263 = $262 >>> 16; + $264 = $263 & 2; + $265 = $260 | $264; + $266 = (14 - ($265))|0; + $267 = $261 << $264; + $268 = $267 >>> 15; + $269 = (($266) + ($268))|0; + $270 = $269 << 1; + $271 = (($269) + 7)|0; + $272 = $246 >>> $271; + $273 = $272 & 1; + $274 = $273 | $270; + $idx$0$i = $274; + } + } + $275 = ((32544 + ($idx$0$i<<2)|0) + 304|0); + $276 = HEAP32[$275>>2]|0; + $277 = ($276|0)==(0|0); + L126: do { + if ($277) { + $rsize$2$i = $249;$t$1$i = 0;$v$2$i = 0; + } else { + $278 = ($idx$0$i|0)==(31); + if ($278) { + $282 = 0; + } else { + $279 = $idx$0$i >>> 1; + $280 = (25 - ($279))|0; + $282 = $280; + } + $281 = $246 << $282; + $rsize$0$i15 = $249;$rst$0$i = 0;$sizebits$0$i = $281;$t$0$i14 = $276;$v$0$i16 = 0; + while(1) { + $283 = (($t$0$i14) + 4|0); + $284 = HEAP32[$283>>2]|0; + $285 = $284 & -8; + $286 = (($285) - ($246))|0; + $287 = ($286>>>0)<($rsize$0$i15>>>0); + if ($287) { + $288 = ($285|0)==($246|0); + if ($288) { + $rsize$2$i = $286;$t$1$i = $t$0$i14;$v$2$i = $t$0$i14; + break L126; + } else { + $rsize$1$i = $286;$v$1$i = $t$0$i14; + } + } else { + $rsize$1$i = $rsize$0$i15;$v$1$i = $v$0$i16; + } + $289 = (($t$0$i14) + 20|0); + $290 = HEAP32[$289>>2]|0; + $291 = $sizebits$0$i >>> 31; + $292 = ((($t$0$i14) + ($291<<2)|0) + 16|0); + $293 = HEAP32[$292>>2]|0; + $294 = ($290|0)==(0|0); + $295 = ($290|0)==($293|0); + $or$cond19$i = $294 | $295; + $rst$1$i = $or$cond19$i ? $rst$0$i : $290; + $296 = ($293|0)==(0|0); + $297 = $sizebits$0$i << 1; + if ($296) { + $rsize$2$i = $rsize$1$i;$t$1$i = $rst$1$i;$v$2$i = $v$1$i; + break; + } else { + $rsize$0$i15 = $rsize$1$i;$rst$0$i = $rst$1$i;$sizebits$0$i = $297;$t$0$i14 = $293;$v$0$i16 = $v$1$i; + } + } + } + } while(0); + $298 = ($t$1$i|0)==(0|0); + $299 = ($v$2$i|0)==(0|0); + $or$cond$i = $298 & $299; + if ($or$cond$i) { + $300 = 2 << $idx$0$i; + $301 = (0 - ($300))|0; + $302 = $300 | $301; + $303 = $247 & $302; + $304 = ($303|0)==(0); + if ($304) { + $nb$0 = $246; + break; + } + $305 = (0 - ($303))|0; + $306 = $303 & $305; + $307 = (($306) + -1)|0; + $308 = $307 >>> 12; + $309 = $308 & 16; + $310 = $307 >>> $309; + $311 = $310 >>> 5; + $312 = $311 & 8; + $313 = $312 | $309; + $314 = $310 >>> $312; + $315 = $314 >>> 2; + $316 = $315 & 4; + $317 = $313 | $316; + $318 = $314 >>> $316; + $319 = $318 >>> 1; + $320 = $319 & 2; + $321 = $317 | $320; + $322 = $318 >>> $320; + $323 = $322 >>> 1; + $324 = $323 & 1; + $325 = $321 | $324; + $326 = $322 >>> $324; + $327 = (($325) + ($326))|0; + $328 = ((32544 + ($327<<2)|0) + 304|0); + $329 = HEAP32[$328>>2]|0; + $t$2$ph$i = $329; + } else { + $t$2$ph$i = $t$1$i; + } + $330 = ($t$2$ph$i|0)==(0|0); + if ($330) { + $rsize$3$lcssa$i = $rsize$2$i;$v$3$lcssa$i = $v$2$i; + } else { + $rsize$331$i = $rsize$2$i;$t$230$i = $t$2$ph$i;$v$332$i = $v$2$i; + while(1) { + $331 = (($t$230$i) + 4|0); + $332 = HEAP32[$331>>2]|0; + $333 = $332 & -8; + $334 = (($333) - ($246))|0; + $335 = ($334>>>0)<($rsize$331$i>>>0); + $$rsize$3$i = $335 ? $334 : $rsize$331$i; + $t$2$v$3$i = $335 ? $t$230$i : $v$332$i; + $336 = (($t$230$i) + 16|0); + $337 = HEAP32[$336>>2]|0; + $338 = ($337|0)==(0|0); + if (!($338)) { + $rsize$331$i = $$rsize$3$i;$t$230$i = $337;$v$332$i = $t$2$v$3$i; + continue; + } + $339 = (($t$230$i) + 20|0); + $340 = HEAP32[$339>>2]|0; + $341 = ($340|0)==(0|0); + if ($341) { + $rsize$3$lcssa$i = $$rsize$3$i;$v$3$lcssa$i = $t$2$v$3$i; + break; + } else { + $rsize$331$i = $$rsize$3$i;$t$230$i = $340;$v$332$i = $t$2$v$3$i; + } + } + } + $342 = ($v$3$lcssa$i|0)==(0|0); + if ($342) { + $nb$0 = $246; + } else { + $343 = HEAP32[((32544 + 8|0))>>2]|0; + $344 = (($343) - ($246))|0; + $345 = ($rsize$3$lcssa$i>>>0)<($344>>>0); + if ($345) { + $346 = HEAP32[((32544 + 16|0))>>2]|0; + $347 = ($v$3$lcssa$i>>>0)<($346>>>0); + if ($347) { + _abort(); + // unreachable; + } + $348 = (($v$3$lcssa$i) + ($246)|0); + $349 = ($v$3$lcssa$i>>>0)<($348>>>0); + if (!($349)) { + _abort(); + // unreachable; + } + $350 = (($v$3$lcssa$i) + 24|0); + $351 = HEAP32[$350>>2]|0; + $352 = (($v$3$lcssa$i) + 12|0); + $353 = HEAP32[$352>>2]|0; + $354 = ($353|0)==($v$3$lcssa$i|0); + do { + if ($354) { + $364 = (($v$3$lcssa$i) + 20|0); + $365 = HEAP32[$364>>2]|0; + $366 = ($365|0)==(0|0); + if ($366) { + $367 = (($v$3$lcssa$i) + 16|0); + $368 = HEAP32[$367>>2]|0; + $369 = ($368|0)==(0|0); + if ($369) { + $R$1$i20 = 0; + break; + } else { + $R$0$i18 = $368;$RP$0$i17 = $367; + } + } else { + $R$0$i18 = $365;$RP$0$i17 = $364; + } + while(1) { + $370 = (($R$0$i18) + 20|0); + $371 = HEAP32[$370>>2]|0; + $372 = ($371|0)==(0|0); + if (!($372)) { + $R$0$i18 = $371;$RP$0$i17 = $370; + continue; + } + $373 = (($R$0$i18) + 16|0); + $374 = HEAP32[$373>>2]|0; + $375 = ($374|0)==(0|0); + if ($375) { + break; + } else { + $R$0$i18 = $374;$RP$0$i17 = $373; + } + } + $376 = ($RP$0$i17>>>0)<($346>>>0); + if ($376) { + _abort(); + // unreachable; + } else { + HEAP32[$RP$0$i17>>2] = 0; + $R$1$i20 = $R$0$i18; + break; + } + } else { + $355 = (($v$3$lcssa$i) + 8|0); + $356 = HEAP32[$355>>2]|0; + $357 = ($356>>>0)<($346>>>0); + if ($357) { + _abort(); + // unreachable; + } + $358 = (($356) + 12|0); + $359 = HEAP32[$358>>2]|0; + $360 = ($359|0)==($v$3$lcssa$i|0); + if (!($360)) { + _abort(); + // unreachable; + } + $361 = (($353) + 8|0); + $362 = HEAP32[$361>>2]|0; + $363 = ($362|0)==($v$3$lcssa$i|0); + if ($363) { + HEAP32[$358>>2] = $353; + HEAP32[$361>>2] = $356; + $R$1$i20 = $353; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $377 = ($351|0)==(0|0); + do { + if (!($377)) { + $378 = (($v$3$lcssa$i) + 28|0); + $379 = HEAP32[$378>>2]|0; + $380 = ((32544 + ($379<<2)|0) + 304|0); + $381 = HEAP32[$380>>2]|0; + $382 = ($v$3$lcssa$i|0)==($381|0); + if ($382) { + HEAP32[$380>>2] = $R$1$i20; + $cond$i21 = ($R$1$i20|0)==(0|0); + if ($cond$i21) { + $383 = 1 << $379; + $384 = $383 ^ -1; + $385 = HEAP32[((32544 + 4|0))>>2]|0; + $386 = $385 & $384; + HEAP32[((32544 + 4|0))>>2] = $386; + break; + } + } else { + $387 = HEAP32[((32544 + 16|0))>>2]|0; + $388 = ($351>>>0)<($387>>>0); + if ($388) { + _abort(); + // unreachable; + } + $389 = (($351) + 16|0); + $390 = HEAP32[$389>>2]|0; + $391 = ($390|0)==($v$3$lcssa$i|0); + if ($391) { + HEAP32[$389>>2] = $R$1$i20; + } else { + $392 = (($351) + 20|0); + HEAP32[$392>>2] = $R$1$i20; + } + $393 = ($R$1$i20|0)==(0|0); + if ($393) { + break; + } + } + $394 = HEAP32[((32544 + 16|0))>>2]|0; + $395 = ($R$1$i20>>>0)<($394>>>0); + if ($395) { + _abort(); + // unreachable; + } + $396 = (($R$1$i20) + 24|0); + HEAP32[$396>>2] = $351; + $397 = (($v$3$lcssa$i) + 16|0); + $398 = HEAP32[$397>>2]|0; + $399 = ($398|0)==(0|0); + do { + if (!($399)) { + $400 = ($398>>>0)<($394>>>0); + if ($400) { + _abort(); + // unreachable; + } else { + $401 = (($R$1$i20) + 16|0); + HEAP32[$401>>2] = $398; + $402 = (($398) + 24|0); + HEAP32[$402>>2] = $R$1$i20; + break; + } + } + } while(0); + $403 = (($v$3$lcssa$i) + 20|0); + $404 = HEAP32[$403>>2]|0; + $405 = ($404|0)==(0|0); + if (!($405)) { + $406 = HEAP32[((32544 + 16|0))>>2]|0; + $407 = ($404>>>0)<($406>>>0); + if ($407) { + _abort(); + // unreachable; + } else { + $408 = (($R$1$i20) + 20|0); + HEAP32[$408>>2] = $404; + $409 = (($404) + 24|0); + HEAP32[$409>>2] = $R$1$i20; + break; + } + } + } + } while(0); + $410 = ($rsize$3$lcssa$i>>>0)<(16); + L204: do { + if ($410) { + $411 = (($rsize$3$lcssa$i) + ($246))|0; + $412 = $411 | 3; + $413 = (($v$3$lcssa$i) + 4|0); + HEAP32[$413>>2] = $412; + $$sum18$i = (($411) + 4)|0; + $414 = (($v$3$lcssa$i) + ($$sum18$i)|0); + $415 = HEAP32[$414>>2]|0; + $416 = $415 | 1; + HEAP32[$414>>2] = $416; + } else { + $417 = $246 | 3; + $418 = (($v$3$lcssa$i) + 4|0); + HEAP32[$418>>2] = $417; + $419 = $rsize$3$lcssa$i | 1; + $$sum$i2338 = $246 | 4; + $420 = (($v$3$lcssa$i) + ($$sum$i2338)|0); + HEAP32[$420>>2] = $419; + $$sum1$i24 = (($rsize$3$lcssa$i) + ($246))|0; + $421 = (($v$3$lcssa$i) + ($$sum1$i24)|0); + HEAP32[$421>>2] = $rsize$3$lcssa$i; + $422 = $rsize$3$lcssa$i >>> 3; + $423 = ($rsize$3$lcssa$i>>>0)<(256); + if ($423) { + $424 = $422 << 1; + $425 = ((32544 + ($424<<2)|0) + 40|0); + $426 = HEAP32[32544>>2]|0; + $427 = 1 << $422; + $428 = $426 & $427; + $429 = ($428|0)==(0); + do { + if ($429) { + $430 = $426 | $427; + HEAP32[32544>>2] = $430; + $$sum14$pre$i = (($424) + 2)|0; + $$pre$i25 = ((32544 + ($$sum14$pre$i<<2)|0) + 40|0); + $$pre$phi$i26Z2D = $$pre$i25;$F5$0$i = $425; + } else { + $$sum17$i = (($424) + 2)|0; + $431 = ((32544 + ($$sum17$i<<2)|0) + 40|0); + $432 = HEAP32[$431>>2]|0; + $433 = HEAP32[((32544 + 16|0))>>2]|0; + $434 = ($432>>>0)<($433>>>0); + if (!($434)) { + $$pre$phi$i26Z2D = $431;$F5$0$i = $432; + break; + } + _abort(); + // unreachable; + } + } while(0); + HEAP32[$$pre$phi$i26Z2D>>2] = $348; + $435 = (($F5$0$i) + 12|0); + HEAP32[$435>>2] = $348; + $$sum15$i = (($246) + 8)|0; + $436 = (($v$3$lcssa$i) + ($$sum15$i)|0); + HEAP32[$436>>2] = $F5$0$i; + $$sum16$i = (($246) + 12)|0; + $437 = (($v$3$lcssa$i) + ($$sum16$i)|0); + HEAP32[$437>>2] = $425; + break; + } + $438 = $rsize$3$lcssa$i >>> 8; + $439 = ($438|0)==(0); + if ($439) { + $I7$0$i = 0; + } else { + $440 = ($rsize$3$lcssa$i>>>0)>(16777215); + if ($440) { + $I7$0$i = 31; + } else { + $441 = (($438) + 1048320)|0; + $442 = $441 >>> 16; + $443 = $442 & 8; + $444 = $438 << $443; + $445 = (($444) + 520192)|0; + $446 = $445 >>> 16; + $447 = $446 & 4; + $448 = $447 | $443; + $449 = $444 << $447; + $450 = (($449) + 245760)|0; + $451 = $450 >>> 16; + $452 = $451 & 2; + $453 = $448 | $452; + $454 = (14 - ($453))|0; + $455 = $449 << $452; + $456 = $455 >>> 15; + $457 = (($454) + ($456))|0; + $458 = $457 << 1; + $459 = (($457) + 7)|0; + $460 = $rsize$3$lcssa$i >>> $459; + $461 = $460 & 1; + $462 = $461 | $458; + $I7$0$i = $462; + } + } + $463 = ((32544 + ($I7$0$i<<2)|0) + 304|0); + $$sum2$i = (($246) + 28)|0; + $464 = (($v$3$lcssa$i) + ($$sum2$i)|0); + HEAP32[$464>>2] = $I7$0$i; + $$sum3$i27 = (($246) + 16)|0; + $465 = (($v$3$lcssa$i) + ($$sum3$i27)|0); + $$sum4$i28 = (($246) + 20)|0; + $466 = (($v$3$lcssa$i) + ($$sum4$i28)|0); + HEAP32[$466>>2] = 0; + HEAP32[$465>>2] = 0; + $467 = HEAP32[((32544 + 4|0))>>2]|0; + $468 = 1 << $I7$0$i; + $469 = $467 & $468; + $470 = ($469|0)==(0); + if ($470) { + $471 = $467 | $468; + HEAP32[((32544 + 4|0))>>2] = $471; + HEAP32[$463>>2] = $348; + $$sum5$i = (($246) + 24)|0; + $472 = (($v$3$lcssa$i) + ($$sum5$i)|0); + HEAP32[$472>>2] = $463; + $$sum6$i = (($246) + 12)|0; + $473 = (($v$3$lcssa$i) + ($$sum6$i)|0); + HEAP32[$473>>2] = $348; + $$sum7$i = (($246) + 8)|0; + $474 = (($v$3$lcssa$i) + ($$sum7$i)|0); + HEAP32[$474>>2] = $348; + break; + } + $475 = HEAP32[$463>>2]|0; + $476 = ($I7$0$i|0)==(31); + if ($476) { + $484 = 0; + } else { + $477 = $I7$0$i >>> 1; + $478 = (25 - ($477))|0; + $484 = $478; + } + $479 = (($475) + 4|0); + $480 = HEAP32[$479>>2]|0; + $481 = $480 & -8; + $482 = ($481|0)==($rsize$3$lcssa$i|0); + L225: do { + if ($482) { + $T$0$lcssa$i = $475; + } else { + $483 = $rsize$3$lcssa$i << $484; + $K12$027$i = $483;$T$026$i = $475; + while(1) { + $491 = $K12$027$i >>> 31; + $492 = ((($T$026$i) + ($491<<2)|0) + 16|0); + $487 = HEAP32[$492>>2]|0; + $493 = ($487|0)==(0|0); + if ($493) { + break; + } + $485 = $K12$027$i << 1; + $486 = (($487) + 4|0); + $488 = HEAP32[$486>>2]|0; + $489 = $488 & -8; + $490 = ($489|0)==($rsize$3$lcssa$i|0); + if ($490) { + $T$0$lcssa$i = $487; + break L225; + } else { + $K12$027$i = $485;$T$026$i = $487; + } + } + $494 = HEAP32[((32544 + 16|0))>>2]|0; + $495 = ($492>>>0)<($494>>>0); + if ($495) { + _abort(); + // unreachable; + } else { + HEAP32[$492>>2] = $348; + $$sum11$i = (($246) + 24)|0; + $496 = (($v$3$lcssa$i) + ($$sum11$i)|0); + HEAP32[$496>>2] = $T$026$i; + $$sum12$i = (($246) + 12)|0; + $497 = (($v$3$lcssa$i) + ($$sum12$i)|0); + HEAP32[$497>>2] = $348; + $$sum13$i = (($246) + 8)|0; + $498 = (($v$3$lcssa$i) + ($$sum13$i)|0); + HEAP32[$498>>2] = $348; + break L204; + } + } + } while(0); + $499 = (($T$0$lcssa$i) + 8|0); + $500 = HEAP32[$499>>2]|0; + $501 = HEAP32[((32544 + 16|0))>>2]|0; + $502 = ($T$0$lcssa$i>>>0)>=($501>>>0); + $503 = ($500>>>0)>=($501>>>0); + $or$cond24$i = $502 & $503; + if ($or$cond24$i) { + $504 = (($500) + 12|0); + HEAP32[$504>>2] = $348; + HEAP32[$499>>2] = $348; + $$sum8$i = (($246) + 8)|0; + $505 = (($v$3$lcssa$i) + ($$sum8$i)|0); + HEAP32[$505>>2] = $500; + $$sum9$i = (($246) + 12)|0; + $506 = (($v$3$lcssa$i) + ($$sum9$i)|0); + HEAP32[$506>>2] = $T$0$lcssa$i; + $$sum10$i = (($246) + 24)|0; + $507 = (($v$3$lcssa$i) + ($$sum10$i)|0); + HEAP32[$507>>2] = 0; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $508 = (($v$3$lcssa$i) + 8|0); + $mem$0 = $508; + STACKTOP = sp;return ($mem$0|0); + } else { + $nb$0 = $246; + } + } + } + } + } + } while(0); + $509 = HEAP32[((32544 + 8|0))>>2]|0; + $510 = ($509>>>0)<($nb$0>>>0); + if (!($510)) { + $511 = (($509) - ($nb$0))|0; + $512 = HEAP32[((32544 + 20|0))>>2]|0; + $513 = ($511>>>0)>(15); + if ($513) { + $514 = (($512) + ($nb$0)|0); + HEAP32[((32544 + 20|0))>>2] = $514; + HEAP32[((32544 + 8|0))>>2] = $511; + $515 = $511 | 1; + $$sum2 = (($nb$0) + 4)|0; + $516 = (($512) + ($$sum2)|0); + HEAP32[$516>>2] = $515; + $517 = (($512) + ($509)|0); + HEAP32[$517>>2] = $511; + $518 = $nb$0 | 3; + $519 = (($512) + 4|0); + HEAP32[$519>>2] = $518; + } else { + HEAP32[((32544 + 8|0))>>2] = 0; + HEAP32[((32544 + 20|0))>>2] = 0; + $520 = $509 | 3; + $521 = (($512) + 4|0); + HEAP32[$521>>2] = $520; + $$sum1 = (($509) + 4)|0; + $522 = (($512) + ($$sum1)|0); + $523 = HEAP32[$522>>2]|0; + $524 = $523 | 1; + HEAP32[$522>>2] = $524; + } + $525 = (($512) + 8|0); + $mem$0 = $525; + STACKTOP = sp;return ($mem$0|0); + } + $526 = HEAP32[((32544 + 12|0))>>2]|0; + $527 = ($526>>>0)>($nb$0>>>0); + if ($527) { + $528 = (($526) - ($nb$0))|0; + HEAP32[((32544 + 12|0))>>2] = $528; + $529 = HEAP32[((32544 + 24|0))>>2]|0; + $530 = (($529) + ($nb$0)|0); + HEAP32[((32544 + 24|0))>>2] = $530; + $531 = $528 | 1; + $$sum = (($nb$0) + 4)|0; + $532 = (($529) + ($$sum)|0); + HEAP32[$532>>2] = $531; + $533 = $nb$0 | 3; + $534 = (($529) + 4|0); + HEAP32[$534>>2] = $533; + $535 = (($529) + 8|0); + $mem$0 = $535; + STACKTOP = sp;return ($mem$0|0); + } + $536 = HEAP32[33016>>2]|0; + $537 = ($536|0)==(0); + do { + if ($537) { + $538 = (_sysconf(30)|0); + $539 = (($538) + -1)|0; + $540 = $539 & $538; + $541 = ($540|0)==(0); + if ($541) { + HEAP32[((33016 + 8|0))>>2] = $538; + HEAP32[((33016 + 4|0))>>2] = $538; + HEAP32[((33016 + 12|0))>>2] = -1; + HEAP32[((33016 + 16|0))>>2] = -1; + HEAP32[((33016 + 20|0))>>2] = 0; + HEAP32[((32544 + 444|0))>>2] = 0; + $542 = (_time((0|0))|0); + $543 = $542 & -16; + $544 = $543 ^ 1431655768; + HEAP32[33016>>2] = $544; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $545 = (($nb$0) + 48)|0; + $546 = HEAP32[((33016 + 8|0))>>2]|0; + $547 = (($nb$0) + 47)|0; + $548 = (($546) + ($547))|0; + $549 = (0 - ($546))|0; + $550 = $548 & $549; + $551 = ($550>>>0)>($nb$0>>>0); + if (!($551)) { + $mem$0 = 0; + STACKTOP = sp;return ($mem$0|0); + } + $552 = HEAP32[((32544 + 440|0))>>2]|0; + $553 = ($552|0)==(0); + if (!($553)) { + $554 = HEAP32[((32544 + 432|0))>>2]|0; + $555 = (($554) + ($550))|0; + $556 = ($555>>>0)<=($554>>>0); + $557 = ($555>>>0)>($552>>>0); + $or$cond1$i = $556 | $557; + if ($or$cond1$i) { + $mem$0 = 0; + STACKTOP = sp;return ($mem$0|0); + } + } + $558 = HEAP32[((32544 + 444|0))>>2]|0; + $559 = $558 & 4; + $560 = ($559|0)==(0); + L266: do { + if ($560) { + $561 = HEAP32[((32544 + 24|0))>>2]|0; + $562 = ($561|0)==(0|0); + L268: do { + if ($562) { + label = 181; + } else { + $sp$0$i$i = ((32544 + 448|0)); + while(1) { + $563 = HEAP32[$sp$0$i$i>>2]|0; + $564 = ($563>>>0)>($561>>>0); + if (!($564)) { + $565 = (($sp$0$i$i) + 4|0); + $566 = HEAP32[$565>>2]|0; + $567 = (($563) + ($566)|0); + $568 = ($567>>>0)>($561>>>0); + if ($568) { + break; + } + } + $569 = (($sp$0$i$i) + 8|0); + $570 = HEAP32[$569>>2]|0; + $571 = ($570|0)==(0|0); + if ($571) { + label = 181; + break L268; + } else { + $sp$0$i$i = $570; + } + } + $572 = ($sp$0$i$i|0)==(0|0); + if ($572) { + label = 181; + } else { + $595 = HEAP32[((32544 + 12|0))>>2]|0; + $596 = (($548) - ($595))|0; + $597 = $596 & $549; + $598 = ($597>>>0)<(2147483647); + if ($598) { + $599 = (_sbrk(($597|0))|0); + $600 = HEAP32[$sp$0$i$i>>2]|0; + $601 = HEAP32[$565>>2]|0; + $602 = (($600) + ($601)|0); + $603 = ($599|0)==($602|0); + if ($603) { + $br$0$i = $599;$ssize$1$i = $597; + label = 190; + } else { + $br$030$i = $599;$ssize$129$i = $597; + label = 191; + } + } else { + $tsize$03141$i = 0; + } + } + } + } while(0); + do { + if ((label|0) == 181) { + $573 = (_sbrk(0)|0); + $574 = ($573|0)==((-1)|0); + if ($574) { + $tsize$03141$i = 0; + } else { + $575 = $573; + $576 = HEAP32[((33016 + 4|0))>>2]|0; + $577 = (($576) + -1)|0; + $578 = $577 & $575; + $579 = ($578|0)==(0); + if ($579) { + $ssize$0$i = $550; + } else { + $580 = (($577) + ($575))|0; + $581 = (0 - ($576))|0; + $582 = $580 & $581; + $583 = (($550) - ($575))|0; + $584 = (($583) + ($582))|0; + $ssize$0$i = $584; + } + $585 = HEAP32[((32544 + 432|0))>>2]|0; + $586 = (($585) + ($ssize$0$i))|0; + $587 = ($ssize$0$i>>>0)>($nb$0>>>0); + $588 = ($ssize$0$i>>>0)<(2147483647); + $or$cond$i29 = $587 & $588; + if ($or$cond$i29) { + $589 = HEAP32[((32544 + 440|0))>>2]|0; + $590 = ($589|0)==(0); + if (!($590)) { + $591 = ($586>>>0)<=($585>>>0); + $592 = ($586>>>0)>($589>>>0); + $or$cond2$i = $591 | $592; + if ($or$cond2$i) { + $tsize$03141$i = 0; + break; + } + } + $593 = (_sbrk(($ssize$0$i|0))|0); + $594 = ($593|0)==($573|0); + if ($594) { + $br$0$i = $573;$ssize$1$i = $ssize$0$i; + label = 190; + } else { + $br$030$i = $593;$ssize$129$i = $ssize$0$i; + label = 191; + } + } else { + $tsize$03141$i = 0; + } + } + } + } while(0); + L288: do { + if ((label|0) == 190) { + $604 = ($br$0$i|0)==((-1)|0); + if ($604) { + $tsize$03141$i = $ssize$1$i; + } else { + $tbase$245$i = $br$0$i;$tsize$244$i = $ssize$1$i; + label = 201; + break L266; + } + } + else if ((label|0) == 191) { + $605 = (0 - ($ssize$129$i))|0; + $606 = ($br$030$i|0)!=((-1)|0); + $607 = ($ssize$129$i>>>0)<(2147483647); + $or$cond5$i = $606 & $607; + $608 = ($545>>>0)>($ssize$129$i>>>0); + $or$cond4$i = $or$cond5$i & $608; + do { + if ($or$cond4$i) { + $609 = HEAP32[((33016 + 8|0))>>2]|0; + $610 = (($547) - ($ssize$129$i))|0; + $611 = (($610) + ($609))|0; + $612 = (0 - ($609))|0; + $613 = $611 & $612; + $614 = ($613>>>0)<(2147483647); + if ($614) { + $615 = (_sbrk(($613|0))|0); + $616 = ($615|0)==((-1)|0); + if ($616) { + (_sbrk(($605|0))|0); + $tsize$03141$i = 0; + break L288; + } else { + $617 = (($613) + ($ssize$129$i))|0; + $ssize$2$i = $617; + break; + } + } else { + $ssize$2$i = $ssize$129$i; + } + } else { + $ssize$2$i = $ssize$129$i; + } + } while(0); + $618 = ($br$030$i|0)==((-1)|0); + if ($618) { + $tsize$03141$i = 0; + } else { + $tbase$245$i = $br$030$i;$tsize$244$i = $ssize$2$i; + label = 201; + break L266; + } + } + } while(0); + $619 = HEAP32[((32544 + 444|0))>>2]|0; + $620 = $619 | 4; + HEAP32[((32544 + 444|0))>>2] = $620; + $tsize$1$i = $tsize$03141$i; + label = 198; + } else { + $tsize$1$i = 0; + label = 198; + } + } while(0); + if ((label|0) == 198) { + $621 = ($550>>>0)<(2147483647); + if ($621) { + $622 = (_sbrk(($550|0))|0); + $623 = (_sbrk(0)|0); + $624 = ($622|0)!=((-1)|0); + $625 = ($623|0)!=((-1)|0); + $or$cond3$i = $624 & $625; + $626 = ($622>>>0)<($623>>>0); + $or$cond6$i = $or$cond3$i & $626; + if ($or$cond6$i) { + $627 = $623; + $628 = $622; + $629 = (($627) - ($628))|0; + $630 = (($nb$0) + 40)|0; + $631 = ($629>>>0)>($630>>>0); + $$tsize$1$i = $631 ? $629 : $tsize$1$i; + if ($631) { + $tbase$245$i = $622;$tsize$244$i = $$tsize$1$i; + label = 201; + } + } + } + } + if ((label|0) == 201) { + $632 = HEAP32[((32544 + 432|0))>>2]|0; + $633 = (($632) + ($tsize$244$i))|0; + HEAP32[((32544 + 432|0))>>2] = $633; + $634 = HEAP32[((32544 + 436|0))>>2]|0; + $635 = ($633>>>0)>($634>>>0); + if ($635) { + HEAP32[((32544 + 436|0))>>2] = $633; + } + $636 = HEAP32[((32544 + 24|0))>>2]|0; + $637 = ($636|0)==(0|0); + L308: do { + if ($637) { + $638 = HEAP32[((32544 + 16|0))>>2]|0; + $639 = ($638|0)==(0|0); + $640 = ($tbase$245$i>>>0)<($638>>>0); + $or$cond8$i = $639 | $640; + if ($or$cond8$i) { + HEAP32[((32544 + 16|0))>>2] = $tbase$245$i; + } + HEAP32[((32544 + 448|0))>>2] = $tbase$245$i; + HEAP32[((32544 + 452|0))>>2] = $tsize$244$i; + HEAP32[((32544 + 460|0))>>2] = 0; + $641 = HEAP32[33016>>2]|0; + HEAP32[((32544 + 36|0))>>2] = $641; + HEAP32[((32544 + 32|0))>>2] = -1; + $i$02$i$i = 0; + while(1) { + $642 = $i$02$i$i << 1; + $643 = ((32544 + ($642<<2)|0) + 40|0); + $$sum$i$i = (($642) + 3)|0; + $644 = ((32544 + ($$sum$i$i<<2)|0) + 40|0); + HEAP32[$644>>2] = $643; + $$sum1$i$i = (($642) + 2)|0; + $645 = ((32544 + ($$sum1$i$i<<2)|0) + 40|0); + HEAP32[$645>>2] = $643; + $646 = (($i$02$i$i) + 1)|0; + $exitcond$i$i = ($646|0)==(32); + if ($exitcond$i$i) { + break; + } else { + $i$02$i$i = $646; + } + } + $647 = (($tsize$244$i) + -40)|0; + $648 = (($tbase$245$i) + 8|0); + $649 = $648; + $650 = $649 & 7; + $651 = ($650|0)==(0); + if ($651) { + $655 = 0; + } else { + $652 = (0 - ($649))|0; + $653 = $652 & 7; + $655 = $653; + } + $654 = (($tbase$245$i) + ($655)|0); + $656 = (($647) - ($655))|0; + HEAP32[((32544 + 24|0))>>2] = $654; + HEAP32[((32544 + 12|0))>>2] = $656; + $657 = $656 | 1; + $$sum$i12$i = (($655) + 4)|0; + $658 = (($tbase$245$i) + ($$sum$i12$i)|0); + HEAP32[$658>>2] = $657; + $$sum2$i$i = (($tsize$244$i) + -36)|0; + $659 = (($tbase$245$i) + ($$sum2$i$i)|0); + HEAP32[$659>>2] = 40; + $660 = HEAP32[((33016 + 16|0))>>2]|0; + HEAP32[((32544 + 28|0))>>2] = $660; + } else { + $sp$073$i = ((32544 + 448|0)); + while(1) { + $661 = HEAP32[$sp$073$i>>2]|0; + $662 = (($sp$073$i) + 4|0); + $663 = HEAP32[$662>>2]|0; + $664 = (($661) + ($663)|0); + $665 = ($tbase$245$i|0)==($664|0); + if ($665) { + label = 213; + break; + } + $666 = (($sp$073$i) + 8|0); + $667 = HEAP32[$666>>2]|0; + $668 = ($667|0)==(0|0); + if ($668) { + break; + } else { + $sp$073$i = $667; + } + } + if ((label|0) == 213) { + $669 = (($sp$073$i) + 12|0); + $670 = HEAP32[$669>>2]|0; + $671 = $670 & 8; + $672 = ($671|0)==(0); + if ($672) { + $673 = ($636>>>0)>=($661>>>0); + $674 = ($636>>>0)<($tbase$245$i>>>0); + $or$cond47$i = $673 & $674; + if ($or$cond47$i) { + $675 = (($663) + ($tsize$244$i))|0; + HEAP32[$662>>2] = $675; + $676 = HEAP32[((32544 + 12|0))>>2]|0; + $677 = (($676) + ($tsize$244$i))|0; + $678 = (($636) + 8|0); + $679 = $678; + $680 = $679 & 7; + $681 = ($680|0)==(0); + if ($681) { + $685 = 0; + } else { + $682 = (0 - ($679))|0; + $683 = $682 & 7; + $685 = $683; + } + $684 = (($636) + ($685)|0); + $686 = (($677) - ($685))|0; + HEAP32[((32544 + 24|0))>>2] = $684; + HEAP32[((32544 + 12|0))>>2] = $686; + $687 = $686 | 1; + $$sum$i16$i = (($685) + 4)|0; + $688 = (($636) + ($$sum$i16$i)|0); + HEAP32[$688>>2] = $687; + $$sum2$i17$i = (($677) + 4)|0; + $689 = (($636) + ($$sum2$i17$i)|0); + HEAP32[$689>>2] = 40; + $690 = HEAP32[((33016 + 16|0))>>2]|0; + HEAP32[((32544 + 28|0))>>2] = $690; + break; + } + } + } + $691 = HEAP32[((32544 + 16|0))>>2]|0; + $692 = ($tbase$245$i>>>0)<($691>>>0); + if ($692) { + HEAP32[((32544 + 16|0))>>2] = $tbase$245$i; + $756 = $tbase$245$i; + } else { + $756 = $691; + } + $693 = (($tbase$245$i) + ($tsize$244$i)|0); + $sp$166$i = ((32544 + 448|0)); + while(1) { + $694 = HEAP32[$sp$166$i>>2]|0; + $695 = ($694|0)==($693|0); + if ($695) { + label = 223; + break; + } + $696 = (($sp$166$i) + 8|0); + $697 = HEAP32[$696>>2]|0; + $698 = ($697|0)==(0|0); + if ($698) { + break; + } else { + $sp$166$i = $697; + } + } + if ((label|0) == 223) { + $699 = (($sp$166$i) + 12|0); + $700 = HEAP32[$699>>2]|0; + $701 = $700 & 8; + $702 = ($701|0)==(0); + if ($702) { + HEAP32[$sp$166$i>>2] = $tbase$245$i; + $703 = (($sp$166$i) + 4|0); + $704 = HEAP32[$703>>2]|0; + $705 = (($704) + ($tsize$244$i))|0; + HEAP32[$703>>2] = $705; + $706 = (($tbase$245$i) + 8|0); + $707 = $706; + $708 = $707 & 7; + $709 = ($708|0)==(0); + if ($709) { + $713 = 0; + } else { + $710 = (0 - ($707))|0; + $711 = $710 & 7; + $713 = $711; + } + $712 = (($tbase$245$i) + ($713)|0); + $$sum102$i = (($tsize$244$i) + 8)|0; + $714 = (($tbase$245$i) + ($$sum102$i)|0); + $715 = $714; + $716 = $715 & 7; + $717 = ($716|0)==(0); + if ($717) { + $720 = 0; + } else { + $718 = (0 - ($715))|0; + $719 = $718 & 7; + $720 = $719; + } + $$sum103$i = (($720) + ($tsize$244$i))|0; + $721 = (($tbase$245$i) + ($$sum103$i)|0); + $722 = $721; + $723 = $712; + $724 = (($722) - ($723))|0; + $$sum$i19$i = (($713) + ($nb$0))|0; + $725 = (($tbase$245$i) + ($$sum$i19$i)|0); + $726 = (($724) - ($nb$0))|0; + $727 = $nb$0 | 3; + $$sum1$i20$i = (($713) + 4)|0; + $728 = (($tbase$245$i) + ($$sum1$i20$i)|0); + HEAP32[$728>>2] = $727; + $729 = ($721|0)==($636|0); + L345: do { + if ($729) { + $730 = HEAP32[((32544 + 12|0))>>2]|0; + $731 = (($730) + ($726))|0; + HEAP32[((32544 + 12|0))>>2] = $731; + HEAP32[((32544 + 24|0))>>2] = $725; + $732 = $731 | 1; + $$sum42$i$i = (($$sum$i19$i) + 4)|0; + $733 = (($tbase$245$i) + ($$sum42$i$i)|0); + HEAP32[$733>>2] = $732; + } else { + $734 = HEAP32[((32544 + 20|0))>>2]|0; + $735 = ($721|0)==($734|0); + if ($735) { + $736 = HEAP32[((32544 + 8|0))>>2]|0; + $737 = (($736) + ($726))|0; + HEAP32[((32544 + 8|0))>>2] = $737; + HEAP32[((32544 + 20|0))>>2] = $725; + $738 = $737 | 1; + $$sum40$i$i = (($$sum$i19$i) + 4)|0; + $739 = (($tbase$245$i) + ($$sum40$i$i)|0); + HEAP32[$739>>2] = $738; + $$sum41$i$i = (($737) + ($$sum$i19$i))|0; + $740 = (($tbase$245$i) + ($$sum41$i$i)|0); + HEAP32[$740>>2] = $737; + break; + } + $$sum2$i21$i = (($tsize$244$i) + 4)|0; + $$sum104$i = (($$sum2$i21$i) + ($720))|0; + $741 = (($tbase$245$i) + ($$sum104$i)|0); + $742 = HEAP32[$741>>2]|0; + $743 = $742 & 3; + $744 = ($743|0)==(1); + if ($744) { + $745 = $742 & -8; + $746 = $742 >>> 3; + $747 = ($742>>>0)<(256); + L353: do { + if ($747) { + $$sum3738$i$i = $720 | 8; + $$sum114$i = (($$sum3738$i$i) + ($tsize$244$i))|0; + $748 = (($tbase$245$i) + ($$sum114$i)|0); + $749 = HEAP32[$748>>2]|0; + $$sum39$i$i = (($tsize$244$i) + 12)|0; + $$sum115$i = (($$sum39$i$i) + ($720))|0; + $750 = (($tbase$245$i) + ($$sum115$i)|0); + $751 = HEAP32[$750>>2]|0; + $752 = $746 << 1; + $753 = ((32544 + ($752<<2)|0) + 40|0); + $754 = ($749|0)==($753|0); + do { + if (!($754)) { + $755 = ($749>>>0)<($756>>>0); + if ($755) { + _abort(); + // unreachable; + } + $757 = (($749) + 12|0); + $758 = HEAP32[$757>>2]|0; + $759 = ($758|0)==($721|0); + if ($759) { + break; + } + _abort(); + // unreachable; + } + } while(0); + $760 = ($751|0)==($749|0); + if ($760) { + $761 = 1 << $746; + $762 = $761 ^ -1; + $763 = HEAP32[32544>>2]|0; + $764 = $763 & $762; + HEAP32[32544>>2] = $764; + break; + } + $765 = ($751|0)==($753|0); + do { + if ($765) { + $$pre58$i$i = (($751) + 8|0); + $$pre$phi59$i$iZ2D = $$pre58$i$i; + } else { + $766 = ($751>>>0)<($756>>>0); + if ($766) { + _abort(); + // unreachable; + } + $767 = (($751) + 8|0); + $768 = HEAP32[$767>>2]|0; + $769 = ($768|0)==($721|0); + if ($769) { + $$pre$phi59$i$iZ2D = $767; + break; + } + _abort(); + // unreachable; + } + } while(0); + $770 = (($749) + 12|0); + HEAP32[$770>>2] = $751; + HEAP32[$$pre$phi59$i$iZ2D>>2] = $749; + } else { + $$sum34$i$i = $720 | 24; + $$sum105$i = (($$sum34$i$i) + ($tsize$244$i))|0; + $771 = (($tbase$245$i) + ($$sum105$i)|0); + $772 = HEAP32[$771>>2]|0; + $$sum5$i$i = (($tsize$244$i) + 12)|0; + $$sum106$i = (($$sum5$i$i) + ($720))|0; + $773 = (($tbase$245$i) + ($$sum106$i)|0); + $774 = HEAP32[$773>>2]|0; + $775 = ($774|0)==($721|0); + do { + if ($775) { + $$sum67$i$i = $720 | 16; + $$sum112$i = (($$sum2$i21$i) + ($$sum67$i$i))|0; + $785 = (($tbase$245$i) + ($$sum112$i)|0); + $786 = HEAP32[$785>>2]|0; + $787 = ($786|0)==(0|0); + if ($787) { + $$sum113$i = (($$sum67$i$i) + ($tsize$244$i))|0; + $788 = (($tbase$245$i) + ($$sum113$i)|0); + $789 = HEAP32[$788>>2]|0; + $790 = ($789|0)==(0|0); + if ($790) { + $R$1$i$i = 0; + break; + } else { + $R$0$i$i = $789;$RP$0$i$i = $788; + } + } else { + $R$0$i$i = $786;$RP$0$i$i = $785; + } + while(1) { + $791 = (($R$0$i$i) + 20|0); + $792 = HEAP32[$791>>2]|0; + $793 = ($792|0)==(0|0); + if (!($793)) { + $R$0$i$i = $792;$RP$0$i$i = $791; + continue; + } + $794 = (($R$0$i$i) + 16|0); + $795 = HEAP32[$794>>2]|0; + $796 = ($795|0)==(0|0); + if ($796) { + break; + } else { + $R$0$i$i = $795;$RP$0$i$i = $794; + } + } + $797 = ($RP$0$i$i>>>0)<($756>>>0); + if ($797) { + _abort(); + // unreachable; + } else { + HEAP32[$RP$0$i$i>>2] = 0; + $R$1$i$i = $R$0$i$i; + break; + } + } else { + $$sum3536$i$i = $720 | 8; + $$sum107$i = (($$sum3536$i$i) + ($tsize$244$i))|0; + $776 = (($tbase$245$i) + ($$sum107$i)|0); + $777 = HEAP32[$776>>2]|0; + $778 = ($777>>>0)<($756>>>0); + if ($778) { + _abort(); + // unreachable; + } + $779 = (($777) + 12|0); + $780 = HEAP32[$779>>2]|0; + $781 = ($780|0)==($721|0); + if (!($781)) { + _abort(); + // unreachable; + } + $782 = (($774) + 8|0); + $783 = HEAP32[$782>>2]|0; + $784 = ($783|0)==($721|0); + if ($784) { + HEAP32[$779>>2] = $774; + HEAP32[$782>>2] = $777; + $R$1$i$i = $774; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $798 = ($772|0)==(0|0); + if ($798) { + break; + } + $$sum30$i$i = (($tsize$244$i) + 28)|0; + $$sum108$i = (($$sum30$i$i) + ($720))|0; + $799 = (($tbase$245$i) + ($$sum108$i)|0); + $800 = HEAP32[$799>>2]|0; + $801 = ((32544 + ($800<<2)|0) + 304|0); + $802 = HEAP32[$801>>2]|0; + $803 = ($721|0)==($802|0); + do { + if ($803) { + HEAP32[$801>>2] = $R$1$i$i; + $cond$i$i = ($R$1$i$i|0)==(0|0); + if (!($cond$i$i)) { + break; + } + $804 = 1 << $800; + $805 = $804 ^ -1; + $806 = HEAP32[((32544 + 4|0))>>2]|0; + $807 = $806 & $805; + HEAP32[((32544 + 4|0))>>2] = $807; + break L353; + } else { + $808 = HEAP32[((32544 + 16|0))>>2]|0; + $809 = ($772>>>0)<($808>>>0); + if ($809) { + _abort(); + // unreachable; + } + $810 = (($772) + 16|0); + $811 = HEAP32[$810>>2]|0; + $812 = ($811|0)==($721|0); + if ($812) { + HEAP32[$810>>2] = $R$1$i$i; + } else { + $813 = (($772) + 20|0); + HEAP32[$813>>2] = $R$1$i$i; + } + $814 = ($R$1$i$i|0)==(0|0); + if ($814) { + break L353; + } + } + } while(0); + $815 = HEAP32[((32544 + 16|0))>>2]|0; + $816 = ($R$1$i$i>>>0)<($815>>>0); + if ($816) { + _abort(); + // unreachable; + } + $817 = (($R$1$i$i) + 24|0); + HEAP32[$817>>2] = $772; + $$sum3132$i$i = $720 | 16; + $$sum109$i = (($$sum3132$i$i) + ($tsize$244$i))|0; + $818 = (($tbase$245$i) + ($$sum109$i)|0); + $819 = HEAP32[$818>>2]|0; + $820 = ($819|0)==(0|0); + do { + if (!($820)) { + $821 = ($819>>>0)<($815>>>0); + if ($821) { + _abort(); + // unreachable; + } else { + $822 = (($R$1$i$i) + 16|0); + HEAP32[$822>>2] = $819; + $823 = (($819) + 24|0); + HEAP32[$823>>2] = $R$1$i$i; + break; + } + } + } while(0); + $$sum110$i = (($$sum2$i21$i) + ($$sum3132$i$i))|0; + $824 = (($tbase$245$i) + ($$sum110$i)|0); + $825 = HEAP32[$824>>2]|0; + $826 = ($825|0)==(0|0); + if ($826) { + break; + } + $827 = HEAP32[((32544 + 16|0))>>2]|0; + $828 = ($825>>>0)<($827>>>0); + if ($828) { + _abort(); + // unreachable; + } else { + $829 = (($R$1$i$i) + 20|0); + HEAP32[$829>>2] = $825; + $830 = (($825) + 24|0); + HEAP32[$830>>2] = $R$1$i$i; + break; + } + } + } while(0); + $$sum9$i$i = $745 | $720; + $$sum111$i = (($$sum9$i$i) + ($tsize$244$i))|0; + $831 = (($tbase$245$i) + ($$sum111$i)|0); + $832 = (($745) + ($726))|0; + $oldfirst$0$i$i = $831;$qsize$0$i$i = $832; + } else { + $oldfirst$0$i$i = $721;$qsize$0$i$i = $726; + } + $833 = (($oldfirst$0$i$i) + 4|0); + $834 = HEAP32[$833>>2]|0; + $835 = $834 & -2; + HEAP32[$833>>2] = $835; + $836 = $qsize$0$i$i | 1; + $$sum10$i$i = (($$sum$i19$i) + 4)|0; + $837 = (($tbase$245$i) + ($$sum10$i$i)|0); + HEAP32[$837>>2] = $836; + $$sum11$i22$i = (($qsize$0$i$i) + ($$sum$i19$i))|0; + $838 = (($tbase$245$i) + ($$sum11$i22$i)|0); + HEAP32[$838>>2] = $qsize$0$i$i; + $839 = $qsize$0$i$i >>> 3; + $840 = ($qsize$0$i$i>>>0)<(256); + if ($840) { + $841 = $839 << 1; + $842 = ((32544 + ($841<<2)|0) + 40|0); + $843 = HEAP32[32544>>2]|0; + $844 = 1 << $839; + $845 = $843 & $844; + $846 = ($845|0)==(0); + do { + if ($846) { + $847 = $843 | $844; + HEAP32[32544>>2] = $847; + $$sum26$pre$i$i = (($841) + 2)|0; + $$pre$i23$i = ((32544 + ($$sum26$pre$i$i<<2)|0) + 40|0); + $$pre$phi$i24$iZ2D = $$pre$i23$i;$F4$0$i$i = $842; + } else { + $$sum29$i$i = (($841) + 2)|0; + $848 = ((32544 + ($$sum29$i$i<<2)|0) + 40|0); + $849 = HEAP32[$848>>2]|0; + $850 = HEAP32[((32544 + 16|0))>>2]|0; + $851 = ($849>>>0)<($850>>>0); + if (!($851)) { + $$pre$phi$i24$iZ2D = $848;$F4$0$i$i = $849; + break; + } + _abort(); + // unreachable; + } + } while(0); + HEAP32[$$pre$phi$i24$iZ2D>>2] = $725; + $852 = (($F4$0$i$i) + 12|0); + HEAP32[$852>>2] = $725; + $$sum27$i$i = (($$sum$i19$i) + 8)|0; + $853 = (($tbase$245$i) + ($$sum27$i$i)|0); + HEAP32[$853>>2] = $F4$0$i$i; + $$sum28$i$i = (($$sum$i19$i) + 12)|0; + $854 = (($tbase$245$i) + ($$sum28$i$i)|0); + HEAP32[$854>>2] = $842; + break; + } + $855 = $qsize$0$i$i >>> 8; + $856 = ($855|0)==(0); + do { + if ($856) { + $I7$0$i$i = 0; + } else { + $857 = ($qsize$0$i$i>>>0)>(16777215); + if ($857) { + $I7$0$i$i = 31; + break; + } + $858 = (($855) + 1048320)|0; + $859 = $858 >>> 16; + $860 = $859 & 8; + $861 = $855 << $860; + $862 = (($861) + 520192)|0; + $863 = $862 >>> 16; + $864 = $863 & 4; + $865 = $864 | $860; + $866 = $861 << $864; + $867 = (($866) + 245760)|0; + $868 = $867 >>> 16; + $869 = $868 & 2; + $870 = $865 | $869; + $871 = (14 - ($870))|0; + $872 = $866 << $869; + $873 = $872 >>> 15; + $874 = (($871) + ($873))|0; + $875 = $874 << 1; + $876 = (($874) + 7)|0; + $877 = $qsize$0$i$i >>> $876; + $878 = $877 & 1; + $879 = $878 | $875; + $I7$0$i$i = $879; + } + } while(0); + $880 = ((32544 + ($I7$0$i$i<<2)|0) + 304|0); + $$sum12$i$i = (($$sum$i19$i) + 28)|0; + $881 = (($tbase$245$i) + ($$sum12$i$i)|0); + HEAP32[$881>>2] = $I7$0$i$i; + $$sum13$i$i = (($$sum$i19$i) + 16)|0; + $882 = (($tbase$245$i) + ($$sum13$i$i)|0); + $$sum14$i$i = (($$sum$i19$i) + 20)|0; + $883 = (($tbase$245$i) + ($$sum14$i$i)|0); + HEAP32[$883>>2] = 0; + HEAP32[$882>>2] = 0; + $884 = HEAP32[((32544 + 4|0))>>2]|0; + $885 = 1 << $I7$0$i$i; + $886 = $884 & $885; + $887 = ($886|0)==(0); + if ($887) { + $888 = $884 | $885; + HEAP32[((32544 + 4|0))>>2] = $888; + HEAP32[$880>>2] = $725; + $$sum15$i$i = (($$sum$i19$i) + 24)|0; + $889 = (($tbase$245$i) + ($$sum15$i$i)|0); + HEAP32[$889>>2] = $880; + $$sum16$i$i = (($$sum$i19$i) + 12)|0; + $890 = (($tbase$245$i) + ($$sum16$i$i)|0); + HEAP32[$890>>2] = $725; + $$sum17$i$i = (($$sum$i19$i) + 8)|0; + $891 = (($tbase$245$i) + ($$sum17$i$i)|0); + HEAP32[$891>>2] = $725; + break; + } + $892 = HEAP32[$880>>2]|0; + $893 = ($I7$0$i$i|0)==(31); + if ($893) { + $901 = 0; + } else { + $894 = $I7$0$i$i >>> 1; + $895 = (25 - ($894))|0; + $901 = $895; + } + $896 = (($892) + 4|0); + $897 = HEAP32[$896>>2]|0; + $898 = $897 & -8; + $899 = ($898|0)==($qsize$0$i$i|0); + L442: do { + if ($899) { + $T$0$lcssa$i26$i = $892; + } else { + $900 = $qsize$0$i$i << $901; + $K8$053$i$i = $900;$T$052$i$i = $892; + while(1) { + $908 = $K8$053$i$i >>> 31; + $909 = ((($T$052$i$i) + ($908<<2)|0) + 16|0); + $904 = HEAP32[$909>>2]|0; + $910 = ($904|0)==(0|0); + if ($910) { + break; + } + $902 = $K8$053$i$i << 1; + $903 = (($904) + 4|0); + $905 = HEAP32[$903>>2]|0; + $906 = $905 & -8; + $907 = ($906|0)==($qsize$0$i$i|0); + if ($907) { + $T$0$lcssa$i26$i = $904; + break L442; + } else { + $K8$053$i$i = $902;$T$052$i$i = $904; + } + } + $911 = HEAP32[((32544 + 16|0))>>2]|0; + $912 = ($909>>>0)<($911>>>0); + if ($912) { + _abort(); + // unreachable; + } else { + HEAP32[$909>>2] = $725; + $$sum23$i$i = (($$sum$i19$i) + 24)|0; + $913 = (($tbase$245$i) + ($$sum23$i$i)|0); + HEAP32[$913>>2] = $T$052$i$i; + $$sum24$i$i = (($$sum$i19$i) + 12)|0; + $914 = (($tbase$245$i) + ($$sum24$i$i)|0); + HEAP32[$914>>2] = $725; + $$sum25$i$i = (($$sum$i19$i) + 8)|0; + $915 = (($tbase$245$i) + ($$sum25$i$i)|0); + HEAP32[$915>>2] = $725; + break L345; + } + } + } while(0); + $916 = (($T$0$lcssa$i26$i) + 8|0); + $917 = HEAP32[$916>>2]|0; + $918 = HEAP32[((32544 + 16|0))>>2]|0; + $919 = ($T$0$lcssa$i26$i>>>0)>=($918>>>0); + $920 = ($917>>>0)>=($918>>>0); + $or$cond$i27$i = $919 & $920; + if ($or$cond$i27$i) { + $921 = (($917) + 12|0); + HEAP32[$921>>2] = $725; + HEAP32[$916>>2] = $725; + $$sum20$i$i = (($$sum$i19$i) + 8)|0; + $922 = (($tbase$245$i) + ($$sum20$i$i)|0); + HEAP32[$922>>2] = $917; + $$sum21$i$i = (($$sum$i19$i) + 12)|0; + $923 = (($tbase$245$i) + ($$sum21$i$i)|0); + HEAP32[$923>>2] = $T$0$lcssa$i26$i; + $$sum22$i$i = (($$sum$i19$i) + 24)|0; + $924 = (($tbase$245$i) + ($$sum22$i$i)|0); + HEAP32[$924>>2] = 0; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $$sum1819$i$i = $713 | 8; + $925 = (($tbase$245$i) + ($$sum1819$i$i)|0); + $mem$0 = $925; + STACKTOP = sp;return ($mem$0|0); + } + } + $sp$0$i$i$i = ((32544 + 448|0)); + while(1) { + $926 = HEAP32[$sp$0$i$i$i>>2]|0; + $927 = ($926>>>0)>($636>>>0); + if (!($927)) { + $928 = (($sp$0$i$i$i) + 4|0); + $929 = HEAP32[$928>>2]|0; + $930 = (($926) + ($929)|0); + $931 = ($930>>>0)>($636>>>0); + if ($931) { + break; + } + } + $932 = (($sp$0$i$i$i) + 8|0); + $933 = HEAP32[$932>>2]|0; + $sp$0$i$i$i = $933; + } + $$sum$i13$i = (($929) + -47)|0; + $$sum1$i14$i = (($929) + -39)|0; + $934 = (($926) + ($$sum1$i14$i)|0); + $935 = $934; + $936 = $935 & 7; + $937 = ($936|0)==(0); + if ($937) { + $940 = 0; + } else { + $938 = (0 - ($935))|0; + $939 = $938 & 7; + $940 = $939; + } + $$sum2$i15$i = (($$sum$i13$i) + ($940))|0; + $941 = (($926) + ($$sum2$i15$i)|0); + $942 = (($636) + 16|0); + $943 = ($941>>>0)<($942>>>0); + $944 = $943 ? $636 : $941; + $945 = (($944) + 8|0); + $946 = (($tsize$244$i) + -40)|0; + $947 = (($tbase$245$i) + 8|0); + $948 = $947; + $949 = $948 & 7; + $950 = ($949|0)==(0); + if ($950) { + $954 = 0; + } else { + $951 = (0 - ($948))|0; + $952 = $951 & 7; + $954 = $952; + } + $953 = (($tbase$245$i) + ($954)|0); + $955 = (($946) - ($954))|0; + HEAP32[((32544 + 24|0))>>2] = $953; + HEAP32[((32544 + 12|0))>>2] = $955; + $956 = $955 | 1; + $$sum$i$i$i = (($954) + 4)|0; + $957 = (($tbase$245$i) + ($$sum$i$i$i)|0); + HEAP32[$957>>2] = $956; + $$sum2$i$i$i = (($tsize$244$i) + -36)|0; + $958 = (($tbase$245$i) + ($$sum2$i$i$i)|0); + HEAP32[$958>>2] = 40; + $959 = HEAP32[((33016 + 16|0))>>2]|0; + HEAP32[((32544 + 28|0))>>2] = $959; + $960 = (($944) + 4|0); + HEAP32[$960>>2] = 27; + ;HEAP32[$945+0>>2]=HEAP32[((32544 + 448|0))+0>>2]|0;HEAP32[$945+4>>2]=HEAP32[((32544 + 448|0))+4>>2]|0;HEAP32[$945+8>>2]=HEAP32[((32544 + 448|0))+8>>2]|0;HEAP32[$945+12>>2]=HEAP32[((32544 + 448|0))+12>>2]|0; + HEAP32[((32544 + 448|0))>>2] = $tbase$245$i; + HEAP32[((32544 + 452|0))>>2] = $tsize$244$i; + HEAP32[((32544 + 460|0))>>2] = 0; + HEAP32[((32544 + 456|0))>>2] = $945; + $961 = (($944) + 28|0); + HEAP32[$961>>2] = 7; + $962 = (($944) + 32|0); + $963 = ($962>>>0)<($930>>>0); + if ($963) { + $965 = $961; + while(1) { + $964 = (($965) + 4|0); + HEAP32[$964>>2] = 7; + $966 = (($965) + 8|0); + $967 = ($966>>>0)<($930>>>0); + if ($967) { + $965 = $964; + } else { + break; + } + } + } + $968 = ($944|0)==($636|0); + if (!($968)) { + $969 = $944; + $970 = $636; + $971 = (($969) - ($970))|0; + $972 = (($636) + ($971)|0); + $$sum3$i$i = (($971) + 4)|0; + $973 = (($636) + ($$sum3$i$i)|0); + $974 = HEAP32[$973>>2]|0; + $975 = $974 & -2; + HEAP32[$973>>2] = $975; + $976 = $971 | 1; + $977 = (($636) + 4|0); + HEAP32[$977>>2] = $976; + HEAP32[$972>>2] = $971; + $978 = $971 >>> 3; + $979 = ($971>>>0)<(256); + if ($979) { + $980 = $978 << 1; + $981 = ((32544 + ($980<<2)|0) + 40|0); + $982 = HEAP32[32544>>2]|0; + $983 = 1 << $978; + $984 = $982 & $983; + $985 = ($984|0)==(0); + do { + if ($985) { + $986 = $982 | $983; + HEAP32[32544>>2] = $986; + $$sum10$pre$i$i = (($980) + 2)|0; + $$pre$i$i = ((32544 + ($$sum10$pre$i$i<<2)|0) + 40|0); + $$pre$phi$i$iZ2D = $$pre$i$i;$F$0$i$i = $981; + } else { + $$sum11$i$i = (($980) + 2)|0; + $987 = ((32544 + ($$sum11$i$i<<2)|0) + 40|0); + $988 = HEAP32[$987>>2]|0; + $989 = HEAP32[((32544 + 16|0))>>2]|0; + $990 = ($988>>>0)<($989>>>0); + if (!($990)) { + $$pre$phi$i$iZ2D = $987;$F$0$i$i = $988; + break; + } + _abort(); + // unreachable; + } + } while(0); + HEAP32[$$pre$phi$i$iZ2D>>2] = $636; + $991 = (($F$0$i$i) + 12|0); + HEAP32[$991>>2] = $636; + $992 = (($636) + 8|0); + HEAP32[$992>>2] = $F$0$i$i; + $993 = (($636) + 12|0); + HEAP32[$993>>2] = $981; + break; + } + $994 = $971 >>> 8; + $995 = ($994|0)==(0); + if ($995) { + $I1$0$i$i = 0; + } else { + $996 = ($971>>>0)>(16777215); + if ($996) { + $I1$0$i$i = 31; + } else { + $997 = (($994) + 1048320)|0; + $998 = $997 >>> 16; + $999 = $998 & 8; + $1000 = $994 << $999; + $1001 = (($1000) + 520192)|0; + $1002 = $1001 >>> 16; + $1003 = $1002 & 4; + $1004 = $1003 | $999; + $1005 = $1000 << $1003; + $1006 = (($1005) + 245760)|0; + $1007 = $1006 >>> 16; + $1008 = $1007 & 2; + $1009 = $1004 | $1008; + $1010 = (14 - ($1009))|0; + $1011 = $1005 << $1008; + $1012 = $1011 >>> 15; + $1013 = (($1010) + ($1012))|0; + $1014 = $1013 << 1; + $1015 = (($1013) + 7)|0; + $1016 = $971 >>> $1015; + $1017 = $1016 & 1; + $1018 = $1017 | $1014; + $I1$0$i$i = $1018; + } + } + $1019 = ((32544 + ($I1$0$i$i<<2)|0) + 304|0); + $1020 = (($636) + 28|0); + $I1$0$c$i$i = $I1$0$i$i; + HEAP32[$1020>>2] = $I1$0$c$i$i; + $1021 = (($636) + 20|0); + HEAP32[$1021>>2] = 0; + $1022 = (($636) + 16|0); + HEAP32[$1022>>2] = 0; + $1023 = HEAP32[((32544 + 4|0))>>2]|0; + $1024 = 1 << $I1$0$i$i; + $1025 = $1023 & $1024; + $1026 = ($1025|0)==(0); + if ($1026) { + $1027 = $1023 | $1024; + HEAP32[((32544 + 4|0))>>2] = $1027; + HEAP32[$1019>>2] = $636; + $1028 = (($636) + 24|0); + HEAP32[$1028>>2] = $1019; + $1029 = (($636) + 12|0); + HEAP32[$1029>>2] = $636; + $1030 = (($636) + 8|0); + HEAP32[$1030>>2] = $636; + break; + } + $1031 = HEAP32[$1019>>2]|0; + $1032 = ($I1$0$i$i|0)==(31); + if ($1032) { + $1040 = 0; + } else { + $1033 = $I1$0$i$i >>> 1; + $1034 = (25 - ($1033))|0; + $1040 = $1034; + } + $1035 = (($1031) + 4|0); + $1036 = HEAP32[$1035>>2]|0; + $1037 = $1036 & -8; + $1038 = ($1037|0)==($971|0); + L493: do { + if ($1038) { + $T$0$lcssa$i$i = $1031; + } else { + $1039 = $971 << $1040; + $K2$015$i$i = $1039;$T$014$i$i = $1031; + while(1) { + $1047 = $K2$015$i$i >>> 31; + $1048 = ((($T$014$i$i) + ($1047<<2)|0) + 16|0); + $1043 = HEAP32[$1048>>2]|0; + $1049 = ($1043|0)==(0|0); + if ($1049) { + break; + } + $1041 = $K2$015$i$i << 1; + $1042 = (($1043) + 4|0); + $1044 = HEAP32[$1042>>2]|0; + $1045 = $1044 & -8; + $1046 = ($1045|0)==($971|0); + if ($1046) { + $T$0$lcssa$i$i = $1043; + break L493; + } else { + $K2$015$i$i = $1041;$T$014$i$i = $1043; + } + } + $1050 = HEAP32[((32544 + 16|0))>>2]|0; + $1051 = ($1048>>>0)<($1050>>>0); + if ($1051) { + _abort(); + // unreachable; + } else { + HEAP32[$1048>>2] = $636; + $1052 = (($636) + 24|0); + HEAP32[$1052>>2] = $T$014$i$i; + $1053 = (($636) + 12|0); + HEAP32[$1053>>2] = $636; + $1054 = (($636) + 8|0); + HEAP32[$1054>>2] = $636; + break L308; + } + } + } while(0); + $1055 = (($T$0$lcssa$i$i) + 8|0); + $1056 = HEAP32[$1055>>2]|0; + $1057 = HEAP32[((32544 + 16|0))>>2]|0; + $1058 = ($T$0$lcssa$i$i>>>0)>=($1057>>>0); + $1059 = ($1056>>>0)>=($1057>>>0); + $or$cond$i$i = $1058 & $1059; + if ($or$cond$i$i) { + $1060 = (($1056) + 12|0); + HEAP32[$1060>>2] = $636; + HEAP32[$1055>>2] = $636; + $1061 = (($636) + 8|0); + HEAP32[$1061>>2] = $1056; + $1062 = (($636) + 12|0); + HEAP32[$1062>>2] = $T$0$lcssa$i$i; + $1063 = (($636) + 24|0); + HEAP32[$1063>>2] = 0; + break; + } else { + _abort(); + // unreachable; + } + } + } + } while(0); + $1064 = HEAP32[((32544 + 12|0))>>2]|0; + $1065 = ($1064>>>0)>($nb$0>>>0); + if ($1065) { + $1066 = (($1064) - ($nb$0))|0; + HEAP32[((32544 + 12|0))>>2] = $1066; + $1067 = HEAP32[((32544 + 24|0))>>2]|0; + $1068 = (($1067) + ($nb$0)|0); + HEAP32[((32544 + 24|0))>>2] = $1068; + $1069 = $1066 | 1; + $$sum$i32 = (($nb$0) + 4)|0; + $1070 = (($1067) + ($$sum$i32)|0); + HEAP32[$1070>>2] = $1069; + $1071 = $nb$0 | 3; + $1072 = (($1067) + 4|0); + HEAP32[$1072>>2] = $1071; + $1073 = (($1067) + 8|0); + $mem$0 = $1073; + STACKTOP = sp;return ($mem$0|0); + } + } + $1074 = (___errno_location()|0); + HEAP32[$1074>>2] = 12; + $mem$0 = 0; + STACKTOP = sp;return ($mem$0|0); +} +function _free($mem) { + $mem = $mem|0; + var $$pre = 0, $$pre$phi66Z2D = 0, $$pre$phi68Z2D = 0, $$pre$phiZ2D = 0, $$pre65 = 0, $$pre67 = 0, $$sum = 0, $$sum16$pre = 0, $$sum17 = 0, $$sum18 = 0, $$sum19 = 0, $$sum2 = 0, $$sum20 = 0, $$sum2324 = 0, $$sum25 = 0, $$sum26 = 0, $$sum28 = 0, $$sum29 = 0, $$sum3 = 0, $$sum30 = 0; + var $$sum31 = 0, $$sum32 = 0, $$sum33 = 0, $$sum34 = 0, $$sum35 = 0, $$sum36 = 0, $$sum37 = 0, $$sum5 = 0, $$sum67 = 0, $$sum8 = 0, $$sum9 = 0, $0 = 0, $1 = 0, $10 = 0, $100 = 0, $101 = 0, $102 = 0, $103 = 0, $104 = 0, $105 = 0; + var $106 = 0, $107 = 0, $108 = 0, $109 = 0, $11 = 0, $110 = 0, $111 = 0, $112 = 0, $113 = 0, $114 = 0, $115 = 0, $116 = 0, $117 = 0, $118 = 0, $119 = 0, $12 = 0, $120 = 0, $121 = 0, $122 = 0, $123 = 0; + var $124 = 0, $125 = 0, $126 = 0, $127 = 0, $128 = 0, $129 = 0, $13 = 0, $130 = 0, $131 = 0, $132 = 0, $133 = 0, $134 = 0, $135 = 0, $136 = 0, $137 = 0, $138 = 0, $139 = 0, $14 = 0, $140 = 0, $141 = 0; + var $142 = 0, $143 = 0, $144 = 0, $145 = 0, $146 = 0, $147 = 0, $148 = 0, $149 = 0, $15 = 0, $150 = 0, $151 = 0, $152 = 0, $153 = 0, $154 = 0, $155 = 0, $156 = 0, $157 = 0, $158 = 0, $159 = 0, $16 = 0; + var $160 = 0, $161 = 0, $162 = 0, $163 = 0, $164 = 0, $165 = 0, $166 = 0, $167 = 0, $168 = 0, $169 = 0, $17 = 0, $170 = 0, $171 = 0, $172 = 0, $173 = 0, $174 = 0, $175 = 0, $176 = 0, $177 = 0, $178 = 0; + var $179 = 0, $18 = 0, $180 = 0, $181 = 0, $182 = 0, $183 = 0, $184 = 0, $185 = 0, $186 = 0, $187 = 0, $188 = 0, $189 = 0, $19 = 0, $190 = 0, $191 = 0, $192 = 0, $193 = 0, $194 = 0, $195 = 0, $196 = 0; + var $197 = 0, $198 = 0, $199 = 0, $2 = 0, $20 = 0, $200 = 0, $201 = 0, $202 = 0, $203 = 0, $204 = 0, $205 = 0, $206 = 0, $207 = 0, $208 = 0, $209 = 0, $21 = 0, $210 = 0, $211 = 0, $212 = 0, $213 = 0; + var $214 = 0, $215 = 0, $216 = 0, $217 = 0, $218 = 0, $219 = 0, $22 = 0, $220 = 0, $221 = 0, $222 = 0, $223 = 0, $224 = 0, $225 = 0, $226 = 0, $227 = 0, $228 = 0, $229 = 0, $23 = 0, $230 = 0, $231 = 0; + var $232 = 0, $233 = 0, $234 = 0, $235 = 0, $236 = 0, $237 = 0, $238 = 0, $239 = 0, $24 = 0, $240 = 0, $241 = 0, $242 = 0, $243 = 0, $244 = 0, $245 = 0, $246 = 0, $247 = 0, $248 = 0, $249 = 0, $25 = 0; + var $250 = 0, $251 = 0, $252 = 0, $253 = 0, $254 = 0, $255 = 0, $256 = 0, $257 = 0, $258 = 0, $259 = 0, $26 = 0, $260 = 0, $261 = 0, $262 = 0, $263 = 0, $264 = 0, $265 = 0, $266 = 0, $267 = 0, $268 = 0; + var $269 = 0, $27 = 0, $270 = 0, $271 = 0, $272 = 0, $273 = 0, $274 = 0, $275 = 0, $276 = 0, $277 = 0, $278 = 0, $279 = 0, $28 = 0, $280 = 0, $281 = 0, $282 = 0, $283 = 0, $284 = 0, $285 = 0, $286 = 0; + var $287 = 0, $288 = 0, $289 = 0, $29 = 0, $290 = 0, $291 = 0, $292 = 0, $293 = 0, $294 = 0, $295 = 0, $296 = 0, $297 = 0, $298 = 0, $299 = 0, $3 = 0, $30 = 0, $300 = 0, $301 = 0, $302 = 0, $303 = 0; + var $304 = 0, $305 = 0, $306 = 0, $307 = 0, $308 = 0, $309 = 0, $31 = 0, $310 = 0, $311 = 0, $312 = 0, $313 = 0, $314 = 0, $315 = 0, $316 = 0, $317 = 0, $318 = 0, $319 = 0, $32 = 0, $320 = 0, $321 = 0; + var $33 = 0, $34 = 0, $35 = 0, $36 = 0, $37 = 0, $38 = 0, $39 = 0, $4 = 0, $40 = 0, $41 = 0, $42 = 0, $43 = 0, $44 = 0, $45 = 0, $46 = 0, $47 = 0, $48 = 0, $49 = 0, $5 = 0, $50 = 0; + var $51 = 0, $52 = 0, $53 = 0, $54 = 0, $55 = 0, $56 = 0, $57 = 0, $58 = 0, $59 = 0, $6 = 0, $60 = 0, $61 = 0, $62 = 0, $63 = 0, $64 = 0, $65 = 0, $66 = 0, $67 = 0, $68 = 0, $69 = 0; + var $7 = 0, $70 = 0, $71 = 0, $72 = 0, $73 = 0, $74 = 0, $75 = 0, $76 = 0, $77 = 0, $78 = 0, $79 = 0, $8 = 0, $80 = 0, $81 = 0, $82 = 0, $83 = 0, $84 = 0, $85 = 0, $86 = 0, $87 = 0; + var $88 = 0, $89 = 0, $9 = 0, $90 = 0, $91 = 0, $92 = 0, $93 = 0, $94 = 0, $95 = 0, $96 = 0, $97 = 0, $98 = 0, $99 = 0, $F16$0 = 0, $I18$0 = 0, $I18$0$c = 0, $K19$058 = 0, $R$0 = 0, $R$1 = 0, $R7$0 = 0; + var $R7$1 = 0, $RP$0 = 0, $RP9$0 = 0, $T$0$lcssa = 0, $T$057 = 0, $cond = 0, $cond54 = 0, $or$cond = 0, $p$0 = 0, $psize$0 = 0, $psize$1 = 0, $sp$0$i = 0, $sp$0$in$i = 0, label = 0, sp = 0; + sp = STACKTOP; + $0 = ($mem|0)==(0|0); + if ($0) { + STACKTOP = sp;return; + } + $1 = (($mem) + -8|0); + $2 = HEAP32[((32544 + 16|0))>>2]|0; + $3 = ($1>>>0)<($2>>>0); + if ($3) { + _abort(); + // unreachable; + } + $4 = (($mem) + -4|0); + $5 = HEAP32[$4>>2]|0; + $6 = $5 & 3; + $7 = ($6|0)==(1); + if ($7) { + _abort(); + // unreachable; + } + $8 = $5 & -8; + $$sum = (($8) + -8)|0; + $9 = (($mem) + ($$sum)|0); + $10 = $5 & 1; + $11 = ($10|0)==(0); + do { + if ($11) { + $12 = HEAP32[$1>>2]|0; + $13 = ($6|0)==(0); + if ($13) { + STACKTOP = sp;return; + } + $$sum2 = (-8 - ($12))|0; + $14 = (($mem) + ($$sum2)|0); + $15 = (($12) + ($8))|0; + $16 = ($14>>>0)<($2>>>0); + if ($16) { + _abort(); + // unreachable; + } + $17 = HEAP32[((32544 + 20|0))>>2]|0; + $18 = ($14|0)==($17|0); + if ($18) { + $$sum3 = (($8) + -4)|0; + $103 = (($mem) + ($$sum3)|0); + $104 = HEAP32[$103>>2]|0; + $105 = $104 & 3; + $106 = ($105|0)==(3); + if (!($106)) { + $p$0 = $14;$psize$0 = $15; + break; + } + HEAP32[((32544 + 8|0))>>2] = $15; + $107 = $104 & -2; + HEAP32[$103>>2] = $107; + $108 = $15 | 1; + $$sum26 = (($$sum2) + 4)|0; + $109 = (($mem) + ($$sum26)|0); + HEAP32[$109>>2] = $108; + HEAP32[$9>>2] = $15; + STACKTOP = sp;return; + } + $19 = $12 >>> 3; + $20 = ($12>>>0)<(256); + if ($20) { + $$sum36 = (($$sum2) + 8)|0; + $21 = (($mem) + ($$sum36)|0); + $22 = HEAP32[$21>>2]|0; + $$sum37 = (($$sum2) + 12)|0; + $23 = (($mem) + ($$sum37)|0); + $24 = HEAP32[$23>>2]|0; + $25 = $19 << 1; + $26 = ((32544 + ($25<<2)|0) + 40|0); + $27 = ($22|0)==($26|0); + if (!($27)) { + $28 = ($22>>>0)<($2>>>0); + if ($28) { + _abort(); + // unreachable; + } + $29 = (($22) + 12|0); + $30 = HEAP32[$29>>2]|0; + $31 = ($30|0)==($14|0); + if (!($31)) { + _abort(); + // unreachable; + } + } + $32 = ($24|0)==($22|0); + if ($32) { + $33 = 1 << $19; + $34 = $33 ^ -1; + $35 = HEAP32[32544>>2]|0; + $36 = $35 & $34; + HEAP32[32544>>2] = $36; + $p$0 = $14;$psize$0 = $15; + break; + } + $37 = ($24|0)==($26|0); + if ($37) { + $$pre67 = (($24) + 8|0); + $$pre$phi68Z2D = $$pre67; + } else { + $38 = ($24>>>0)<($2>>>0); + if ($38) { + _abort(); + // unreachable; + } + $39 = (($24) + 8|0); + $40 = HEAP32[$39>>2]|0; + $41 = ($40|0)==($14|0); + if ($41) { + $$pre$phi68Z2D = $39; + } else { + _abort(); + // unreachable; + } + } + $42 = (($22) + 12|0); + HEAP32[$42>>2] = $24; + HEAP32[$$pre$phi68Z2D>>2] = $22; + $p$0 = $14;$psize$0 = $15; + break; + } + $$sum28 = (($$sum2) + 24)|0; + $43 = (($mem) + ($$sum28)|0); + $44 = HEAP32[$43>>2]|0; + $$sum29 = (($$sum2) + 12)|0; + $45 = (($mem) + ($$sum29)|0); + $46 = HEAP32[$45>>2]|0; + $47 = ($46|0)==($14|0); + do { + if ($47) { + $$sum31 = (($$sum2) + 20)|0; + $57 = (($mem) + ($$sum31)|0); + $58 = HEAP32[$57>>2]|0; + $59 = ($58|0)==(0|0); + if ($59) { + $$sum30 = (($$sum2) + 16)|0; + $60 = (($mem) + ($$sum30)|0); + $61 = HEAP32[$60>>2]|0; + $62 = ($61|0)==(0|0); + if ($62) { + $R$1 = 0; + break; + } else { + $R$0 = $61;$RP$0 = $60; + } + } else { + $R$0 = $58;$RP$0 = $57; + } + while(1) { + $63 = (($R$0) + 20|0); + $64 = HEAP32[$63>>2]|0; + $65 = ($64|0)==(0|0); + if (!($65)) { + $R$0 = $64;$RP$0 = $63; + continue; + } + $66 = (($R$0) + 16|0); + $67 = HEAP32[$66>>2]|0; + $68 = ($67|0)==(0|0); + if ($68) { + break; + } else { + $R$0 = $67;$RP$0 = $66; + } + } + $69 = ($RP$0>>>0)<($2>>>0); + if ($69) { + _abort(); + // unreachable; + } else { + HEAP32[$RP$0>>2] = 0; + $R$1 = $R$0; + break; + } + } else { + $$sum35 = (($$sum2) + 8)|0; + $48 = (($mem) + ($$sum35)|0); + $49 = HEAP32[$48>>2]|0; + $50 = ($49>>>0)<($2>>>0); + if ($50) { + _abort(); + // unreachable; + } + $51 = (($49) + 12|0); + $52 = HEAP32[$51>>2]|0; + $53 = ($52|0)==($14|0); + if (!($53)) { + _abort(); + // unreachable; + } + $54 = (($46) + 8|0); + $55 = HEAP32[$54>>2]|0; + $56 = ($55|0)==($14|0); + if ($56) { + HEAP32[$51>>2] = $46; + HEAP32[$54>>2] = $49; + $R$1 = $46; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $70 = ($44|0)==(0|0); + if ($70) { + $p$0 = $14;$psize$0 = $15; + } else { + $$sum32 = (($$sum2) + 28)|0; + $71 = (($mem) + ($$sum32)|0); + $72 = HEAP32[$71>>2]|0; + $73 = ((32544 + ($72<<2)|0) + 304|0); + $74 = HEAP32[$73>>2]|0; + $75 = ($14|0)==($74|0); + if ($75) { + HEAP32[$73>>2] = $R$1; + $cond = ($R$1|0)==(0|0); + if ($cond) { + $76 = 1 << $72; + $77 = $76 ^ -1; + $78 = HEAP32[((32544 + 4|0))>>2]|0; + $79 = $78 & $77; + HEAP32[((32544 + 4|0))>>2] = $79; + $p$0 = $14;$psize$0 = $15; + break; + } + } else { + $80 = HEAP32[((32544 + 16|0))>>2]|0; + $81 = ($44>>>0)<($80>>>0); + if ($81) { + _abort(); + // unreachable; + } + $82 = (($44) + 16|0); + $83 = HEAP32[$82>>2]|0; + $84 = ($83|0)==($14|0); + if ($84) { + HEAP32[$82>>2] = $R$1; + } else { + $85 = (($44) + 20|0); + HEAP32[$85>>2] = $R$1; + } + $86 = ($R$1|0)==(0|0); + if ($86) { + $p$0 = $14;$psize$0 = $15; + break; + } + } + $87 = HEAP32[((32544 + 16|0))>>2]|0; + $88 = ($R$1>>>0)<($87>>>0); + if ($88) { + _abort(); + // unreachable; + } + $89 = (($R$1) + 24|0); + HEAP32[$89>>2] = $44; + $$sum33 = (($$sum2) + 16)|0; + $90 = (($mem) + ($$sum33)|0); + $91 = HEAP32[$90>>2]|0; + $92 = ($91|0)==(0|0); + do { + if (!($92)) { + $93 = ($91>>>0)<($87>>>0); + if ($93) { + _abort(); + // unreachable; + } else { + $94 = (($R$1) + 16|0); + HEAP32[$94>>2] = $91; + $95 = (($91) + 24|0); + HEAP32[$95>>2] = $R$1; + break; + } + } + } while(0); + $$sum34 = (($$sum2) + 20)|0; + $96 = (($mem) + ($$sum34)|0); + $97 = HEAP32[$96>>2]|0; + $98 = ($97|0)==(0|0); + if ($98) { + $p$0 = $14;$psize$0 = $15; + } else { + $99 = HEAP32[((32544 + 16|0))>>2]|0; + $100 = ($97>>>0)<($99>>>0); + if ($100) { + _abort(); + // unreachable; + } else { + $101 = (($R$1) + 20|0); + HEAP32[$101>>2] = $97; + $102 = (($97) + 24|0); + HEAP32[$102>>2] = $R$1; + $p$0 = $14;$psize$0 = $15; + break; + } + } + } + } else { + $p$0 = $1;$psize$0 = $8; + } + } while(0); + $110 = ($p$0>>>0)<($9>>>0); + if (!($110)) { + _abort(); + // unreachable; + } + $$sum25 = (($8) + -4)|0; + $111 = (($mem) + ($$sum25)|0); + $112 = HEAP32[$111>>2]|0; + $113 = $112 & 1; + $114 = ($113|0)==(0); + if ($114) { + _abort(); + // unreachable; + } + $115 = $112 & 2; + $116 = ($115|0)==(0); + if ($116) { + $117 = HEAP32[((32544 + 24|0))>>2]|0; + $118 = ($9|0)==($117|0); + if ($118) { + $119 = HEAP32[((32544 + 12|0))>>2]|0; + $120 = (($119) + ($psize$0))|0; + HEAP32[((32544 + 12|0))>>2] = $120; + HEAP32[((32544 + 24|0))>>2] = $p$0; + $121 = $120 | 1; + $122 = (($p$0) + 4|0); + HEAP32[$122>>2] = $121; + $123 = HEAP32[((32544 + 20|0))>>2]|0; + $124 = ($p$0|0)==($123|0); + if (!($124)) { + STACKTOP = sp;return; + } + HEAP32[((32544 + 20|0))>>2] = 0; + HEAP32[((32544 + 8|0))>>2] = 0; + STACKTOP = sp;return; + } + $125 = HEAP32[((32544 + 20|0))>>2]|0; + $126 = ($9|0)==($125|0); + if ($126) { + $127 = HEAP32[((32544 + 8|0))>>2]|0; + $128 = (($127) + ($psize$0))|0; + HEAP32[((32544 + 8|0))>>2] = $128; + HEAP32[((32544 + 20|0))>>2] = $p$0; + $129 = $128 | 1; + $130 = (($p$0) + 4|0); + HEAP32[$130>>2] = $129; + $131 = (($p$0) + ($128)|0); + HEAP32[$131>>2] = $128; + STACKTOP = sp;return; + } + $132 = $112 & -8; + $133 = (($132) + ($psize$0))|0; + $134 = $112 >>> 3; + $135 = ($112>>>0)<(256); + do { + if ($135) { + $136 = (($mem) + ($8)|0); + $137 = HEAP32[$136>>2]|0; + $$sum2324 = $8 | 4; + $138 = (($mem) + ($$sum2324)|0); + $139 = HEAP32[$138>>2]|0; + $140 = $134 << 1; + $141 = ((32544 + ($140<<2)|0) + 40|0); + $142 = ($137|0)==($141|0); + if (!($142)) { + $143 = HEAP32[((32544 + 16|0))>>2]|0; + $144 = ($137>>>0)<($143>>>0); + if ($144) { + _abort(); + // unreachable; + } + $145 = (($137) + 12|0); + $146 = HEAP32[$145>>2]|0; + $147 = ($146|0)==($9|0); + if (!($147)) { + _abort(); + // unreachable; + } + } + $148 = ($139|0)==($137|0); + if ($148) { + $149 = 1 << $134; + $150 = $149 ^ -1; + $151 = HEAP32[32544>>2]|0; + $152 = $151 & $150; + HEAP32[32544>>2] = $152; + break; + } + $153 = ($139|0)==($141|0); + if ($153) { + $$pre65 = (($139) + 8|0); + $$pre$phi66Z2D = $$pre65; + } else { + $154 = HEAP32[((32544 + 16|0))>>2]|0; + $155 = ($139>>>0)<($154>>>0); + if ($155) { + _abort(); + // unreachable; + } + $156 = (($139) + 8|0); + $157 = HEAP32[$156>>2]|0; + $158 = ($157|0)==($9|0); + if ($158) { + $$pre$phi66Z2D = $156; + } else { + _abort(); + // unreachable; + } + } + $159 = (($137) + 12|0); + HEAP32[$159>>2] = $139; + HEAP32[$$pre$phi66Z2D>>2] = $137; + } else { + $$sum5 = (($8) + 16)|0; + $160 = (($mem) + ($$sum5)|0); + $161 = HEAP32[$160>>2]|0; + $$sum67 = $8 | 4; + $162 = (($mem) + ($$sum67)|0); + $163 = HEAP32[$162>>2]|0; + $164 = ($163|0)==($9|0); + do { + if ($164) { + $$sum9 = (($8) + 12)|0; + $175 = (($mem) + ($$sum9)|0); + $176 = HEAP32[$175>>2]|0; + $177 = ($176|0)==(0|0); + if ($177) { + $$sum8 = (($8) + 8)|0; + $178 = (($mem) + ($$sum8)|0); + $179 = HEAP32[$178>>2]|0; + $180 = ($179|0)==(0|0); + if ($180) { + $R7$1 = 0; + break; + } else { + $R7$0 = $179;$RP9$0 = $178; + } + } else { + $R7$0 = $176;$RP9$0 = $175; + } + while(1) { + $181 = (($R7$0) + 20|0); + $182 = HEAP32[$181>>2]|0; + $183 = ($182|0)==(0|0); + if (!($183)) { + $R7$0 = $182;$RP9$0 = $181; + continue; + } + $184 = (($R7$0) + 16|0); + $185 = HEAP32[$184>>2]|0; + $186 = ($185|0)==(0|0); + if ($186) { + break; + } else { + $R7$0 = $185;$RP9$0 = $184; + } + } + $187 = HEAP32[((32544 + 16|0))>>2]|0; + $188 = ($RP9$0>>>0)<($187>>>0); + if ($188) { + _abort(); + // unreachable; + } else { + HEAP32[$RP9$0>>2] = 0; + $R7$1 = $R7$0; + break; + } + } else { + $165 = (($mem) + ($8)|0); + $166 = HEAP32[$165>>2]|0; + $167 = HEAP32[((32544 + 16|0))>>2]|0; + $168 = ($166>>>0)<($167>>>0); + if ($168) { + _abort(); + // unreachable; + } + $169 = (($166) + 12|0); + $170 = HEAP32[$169>>2]|0; + $171 = ($170|0)==($9|0); + if (!($171)) { + _abort(); + // unreachable; + } + $172 = (($163) + 8|0); + $173 = HEAP32[$172>>2]|0; + $174 = ($173|0)==($9|0); + if ($174) { + HEAP32[$169>>2] = $163; + HEAP32[$172>>2] = $166; + $R7$1 = $163; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $189 = ($161|0)==(0|0); + if (!($189)) { + $$sum18 = (($8) + 20)|0; + $190 = (($mem) + ($$sum18)|0); + $191 = HEAP32[$190>>2]|0; + $192 = ((32544 + ($191<<2)|0) + 304|0); + $193 = HEAP32[$192>>2]|0; + $194 = ($9|0)==($193|0); + if ($194) { + HEAP32[$192>>2] = $R7$1; + $cond54 = ($R7$1|0)==(0|0); + if ($cond54) { + $195 = 1 << $191; + $196 = $195 ^ -1; + $197 = HEAP32[((32544 + 4|0))>>2]|0; + $198 = $197 & $196; + HEAP32[((32544 + 4|0))>>2] = $198; + break; + } + } else { + $199 = HEAP32[((32544 + 16|0))>>2]|0; + $200 = ($161>>>0)<($199>>>0); + if ($200) { + _abort(); + // unreachable; + } + $201 = (($161) + 16|0); + $202 = HEAP32[$201>>2]|0; + $203 = ($202|0)==($9|0); + if ($203) { + HEAP32[$201>>2] = $R7$1; + } else { + $204 = (($161) + 20|0); + HEAP32[$204>>2] = $R7$1; + } + $205 = ($R7$1|0)==(0|0); + if ($205) { + break; + } + } + $206 = HEAP32[((32544 + 16|0))>>2]|0; + $207 = ($R7$1>>>0)<($206>>>0); + if ($207) { + _abort(); + // unreachable; + } + $208 = (($R7$1) + 24|0); + HEAP32[$208>>2] = $161; + $$sum19 = (($8) + 8)|0; + $209 = (($mem) + ($$sum19)|0); + $210 = HEAP32[$209>>2]|0; + $211 = ($210|0)==(0|0); + do { + if (!($211)) { + $212 = ($210>>>0)<($206>>>0); + if ($212) { + _abort(); + // unreachable; + } else { + $213 = (($R7$1) + 16|0); + HEAP32[$213>>2] = $210; + $214 = (($210) + 24|0); + HEAP32[$214>>2] = $R7$1; + break; + } + } + } while(0); + $$sum20 = (($8) + 12)|0; + $215 = (($mem) + ($$sum20)|0); + $216 = HEAP32[$215>>2]|0; + $217 = ($216|0)==(0|0); + if (!($217)) { + $218 = HEAP32[((32544 + 16|0))>>2]|0; + $219 = ($216>>>0)<($218>>>0); + if ($219) { + _abort(); + // unreachable; + } else { + $220 = (($R7$1) + 20|0); + HEAP32[$220>>2] = $216; + $221 = (($216) + 24|0); + HEAP32[$221>>2] = $R7$1; + break; + } + } + } + } + } while(0); + $222 = $133 | 1; + $223 = (($p$0) + 4|0); + HEAP32[$223>>2] = $222; + $224 = (($p$0) + ($133)|0); + HEAP32[$224>>2] = $133; + $225 = HEAP32[((32544 + 20|0))>>2]|0; + $226 = ($p$0|0)==($225|0); + if ($226) { + HEAP32[((32544 + 8|0))>>2] = $133; + STACKTOP = sp;return; + } else { + $psize$1 = $133; + } + } else { + $227 = $112 & -2; + HEAP32[$111>>2] = $227; + $228 = $psize$0 | 1; + $229 = (($p$0) + 4|0); + HEAP32[$229>>2] = $228; + $230 = (($p$0) + ($psize$0)|0); + HEAP32[$230>>2] = $psize$0; + $psize$1 = $psize$0; + } + $231 = $psize$1 >>> 3; + $232 = ($psize$1>>>0)<(256); + if ($232) { + $233 = $231 << 1; + $234 = ((32544 + ($233<<2)|0) + 40|0); + $235 = HEAP32[32544>>2]|0; + $236 = 1 << $231; + $237 = $235 & $236; + $238 = ($237|0)==(0); + if ($238) { + $239 = $235 | $236; + HEAP32[32544>>2] = $239; + $$sum16$pre = (($233) + 2)|0; + $$pre = ((32544 + ($$sum16$pre<<2)|0) + 40|0); + $$pre$phiZ2D = $$pre;$F16$0 = $234; + } else { + $$sum17 = (($233) + 2)|0; + $240 = ((32544 + ($$sum17<<2)|0) + 40|0); + $241 = HEAP32[$240>>2]|0; + $242 = HEAP32[((32544 + 16|0))>>2]|0; + $243 = ($241>>>0)<($242>>>0); + if ($243) { + _abort(); + // unreachable; + } else { + $$pre$phiZ2D = $240;$F16$0 = $241; + } + } + HEAP32[$$pre$phiZ2D>>2] = $p$0; + $244 = (($F16$0) + 12|0); + HEAP32[$244>>2] = $p$0; + $245 = (($p$0) + 8|0); + HEAP32[$245>>2] = $F16$0; + $246 = (($p$0) + 12|0); + HEAP32[$246>>2] = $234; + STACKTOP = sp;return; + } + $247 = $psize$1 >>> 8; + $248 = ($247|0)==(0); + if ($248) { + $I18$0 = 0; + } else { + $249 = ($psize$1>>>0)>(16777215); + if ($249) { + $I18$0 = 31; + } else { + $250 = (($247) + 1048320)|0; + $251 = $250 >>> 16; + $252 = $251 & 8; + $253 = $247 << $252; + $254 = (($253) + 520192)|0; + $255 = $254 >>> 16; + $256 = $255 & 4; + $257 = $256 | $252; + $258 = $253 << $256; + $259 = (($258) + 245760)|0; + $260 = $259 >>> 16; + $261 = $260 & 2; + $262 = $257 | $261; + $263 = (14 - ($262))|0; + $264 = $258 << $261; + $265 = $264 >>> 15; + $266 = (($263) + ($265))|0; + $267 = $266 << 1; + $268 = (($266) + 7)|0; + $269 = $psize$1 >>> $268; + $270 = $269 & 1; + $271 = $270 | $267; + $I18$0 = $271; + } + } + $272 = ((32544 + ($I18$0<<2)|0) + 304|0); + $273 = (($p$0) + 28|0); + $I18$0$c = $I18$0; + HEAP32[$273>>2] = $I18$0$c; + $274 = (($p$0) + 20|0); + HEAP32[$274>>2] = 0; + $275 = (($p$0) + 16|0); + HEAP32[$275>>2] = 0; + $276 = HEAP32[((32544 + 4|0))>>2]|0; + $277 = 1 << $I18$0; + $278 = $276 & $277; + $279 = ($278|0)==(0); + L199: do { + if ($279) { + $280 = $276 | $277; + HEAP32[((32544 + 4|0))>>2] = $280; + HEAP32[$272>>2] = $p$0; + $281 = (($p$0) + 24|0); + HEAP32[$281>>2] = $272; + $282 = (($p$0) + 12|0); + HEAP32[$282>>2] = $p$0; + $283 = (($p$0) + 8|0); + HEAP32[$283>>2] = $p$0; + } else { + $284 = HEAP32[$272>>2]|0; + $285 = ($I18$0|0)==(31); + if ($285) { + $293 = 0; + } else { + $286 = $I18$0 >>> 1; + $287 = (25 - ($286))|0; + $293 = $287; + } + $288 = (($284) + 4|0); + $289 = HEAP32[$288>>2]|0; + $290 = $289 & -8; + $291 = ($290|0)==($psize$1|0); + L205: do { + if ($291) { + $T$0$lcssa = $284; + } else { + $292 = $psize$1 << $293; + $K19$058 = $292;$T$057 = $284; + while(1) { + $300 = $K19$058 >>> 31; + $301 = ((($T$057) + ($300<<2)|0) + 16|0); + $296 = HEAP32[$301>>2]|0; + $302 = ($296|0)==(0|0); + if ($302) { + break; + } + $294 = $K19$058 << 1; + $295 = (($296) + 4|0); + $297 = HEAP32[$295>>2]|0; + $298 = $297 & -8; + $299 = ($298|0)==($psize$1|0); + if ($299) { + $T$0$lcssa = $296; + break L205; + } else { + $K19$058 = $294;$T$057 = $296; + } + } + $303 = HEAP32[((32544 + 16|0))>>2]|0; + $304 = ($301>>>0)<($303>>>0); + if ($304) { + _abort(); + // unreachable; + } else { + HEAP32[$301>>2] = $p$0; + $305 = (($p$0) + 24|0); + HEAP32[$305>>2] = $T$057; + $306 = (($p$0) + 12|0); + HEAP32[$306>>2] = $p$0; + $307 = (($p$0) + 8|0); + HEAP32[$307>>2] = $p$0; + break L199; + } + } + } while(0); + $308 = (($T$0$lcssa) + 8|0); + $309 = HEAP32[$308>>2]|0; + $310 = HEAP32[((32544 + 16|0))>>2]|0; + $311 = ($T$0$lcssa>>>0)>=($310>>>0); + $312 = ($309>>>0)>=($310>>>0); + $or$cond = $311 & $312; + if ($or$cond) { + $313 = (($309) + 12|0); + HEAP32[$313>>2] = $p$0; + HEAP32[$308>>2] = $p$0; + $314 = (($p$0) + 8|0); + HEAP32[$314>>2] = $309; + $315 = (($p$0) + 12|0); + HEAP32[$315>>2] = $T$0$lcssa; + $316 = (($p$0) + 24|0); + HEAP32[$316>>2] = 0; + break; + } else { + _abort(); + // unreachable; + } + } + } while(0); + $317 = HEAP32[((32544 + 32|0))>>2]|0; + $318 = (($317) + -1)|0; + HEAP32[((32544 + 32|0))>>2] = $318; + $319 = ($318|0)==(0); + if ($319) { + $sp$0$in$i = ((32544 + 456|0)); + } else { + STACKTOP = sp;return; + } + while(1) { + $sp$0$i = HEAP32[$sp$0$in$i>>2]|0; + $320 = ($sp$0$i|0)==(0|0); + $321 = (($sp$0$i) + 8|0); + if ($320) { + break; + } else { + $sp$0$in$i = $321; + } + } + HEAP32[((32544 + 32|0))>>2] = -1; + STACKTOP = sp;return; +} +function runPostSets() { + +} +function _bitshift64Ashr(low, high, bits) { + low = low|0; high = high|0; bits = bits|0; + var ander = 0; + if ((bits|0) < 32) { + ander = ((1 << bits) - 1)|0; + tempRet0 = high >> bits; + return (low >>> bits) | ((high&ander) << (32 - bits)); + } + tempRet0 = (high|0) < 0 ? -1 : 0; + return (high >> (bits - 32))|0; +} +function _i64Subtract(a, b, c, d) { + a = a|0; b = b|0; c = c|0; d = d|0; + var l = 0, h = 0; + l = (a - c)>>>0; + h = (b - d)>>>0; + h = (b - d - (((c>>>0) > (a>>>0))|0))>>>0; // Borrow one from high word to low word on underflow. + return ((tempRet0 = h,l|0)|0); +} +function _i64Add(a, b, c, d) { + /* + x = a + b*2^32 + y = c + d*2^32 + result = l + h*2^32 + */ + a = a|0; b = b|0; c = c|0; d = d|0; + var l = 0, h = 0; + l = (a + c)>>>0; + h = (b + d + (((l>>>0) < (a>>>0))|0))>>>0; // Add carry from low word to high word on overflow. + return ((tempRet0 = h,l|0)|0); +} +function _memset(ptr, value, num) { + ptr = ptr|0; value = value|0; num = num|0; + var stop = 0, value4 = 0, stop4 = 0, unaligned = 0; + stop = (ptr + num)|0; + if ((num|0) >= 20) { + // This is unaligned, but quite large, so work hard to get to aligned settings + value = value & 0xff; + unaligned = ptr & 3; + value4 = value | (value << 8) | (value << 16) | (value << 24); + stop4 = stop & ~3; + if (unaligned) { + unaligned = (ptr + 4 - unaligned)|0; + while ((ptr|0) < (unaligned|0)) { // no need to check for stop, since we have large num + HEAP8[((ptr)>>0)]=value; + ptr = (ptr+1)|0; + } + } + while ((ptr|0) < (stop4|0)) { + HEAP32[((ptr)>>2)]=value4; + ptr = (ptr+4)|0; + } + } + while ((ptr|0) < (stop|0)) { + HEAP8[((ptr)>>0)]=value; + ptr = (ptr+1)|0; + } + return (ptr-num)|0; +} +function _bitshift64Lshr(low, high, bits) { + low = low|0; high = high|0; bits = bits|0; + var ander = 0; + if ((bits|0) < 32) { + ander = ((1 << bits) - 1)|0; + tempRet0 = high >>> bits; + return (low >>> bits) | ((high&ander) << (32 - bits)); + } + tempRet0 = 0; + return (high >>> (bits - 32))|0; +} +function _bitshift64Shl(low, high, bits) { + low = low|0; high = high|0; bits = bits|0; + var ander = 0; + if ((bits|0) < 32) { + ander = ((1 << bits) - 1)|0; + tempRet0 = (high << bits) | ((low&(ander << (32 - bits))) >>> (32 - bits)); + return low << bits; + } + tempRet0 = low << (bits - 32); + return 0; +} +function _strlen(ptr) { + ptr = ptr|0; + var curr = 0; + curr = ptr; + while (((HEAP8[((curr)>>0)])|0)) { + curr = (curr + 1)|0; + } + return (curr - ptr)|0; +} +function _memcpy(dest, src, num) { + + dest = dest|0; src = src|0; num = num|0; + var ret = 0; + if ((num|0) >= 4096) return _emscripten_memcpy_big(dest|0, src|0, num|0)|0; + ret = dest|0; + if ((dest&3) == (src&3)) { + while (dest & 3) { + if ((num|0) == 0) return ret|0; + HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0); + dest = (dest+1)|0; + src = (src+1)|0; + num = (num-1)|0; + } + while ((num|0) >= 4) { + HEAP32[((dest)>>2)]=((HEAP32[((src)>>2)])|0); + dest = (dest+4)|0; + src = (src+4)|0; + num = (num-4)|0; + } + } + while ((num|0) > 0) { + HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0); + dest = (dest+1)|0; + src = (src+1)|0; + num = (num-1)|0; + } + return ret|0; +} +function _memmove(dest, src, num) { + dest = dest|0; src = src|0; num = num|0; + var ret = 0; + if (((src|0) < (dest|0)) & ((dest|0) < ((src + num)|0))) { + // Unlikely case: Copy backwards in a safe manner + ret = dest; + src = (src + num)|0; + dest = (dest + num)|0; + while ((num|0) > 0) { + dest = (dest - 1)|0; + src = (src - 1)|0; + num = (num - 1)|0; + HEAP8[((dest)>>0)]=((HEAP8[((src)>>0)])|0); + } + dest = ret; + } else { + _memcpy(dest, src, num) | 0; + } + return dest | 0; +} +function _llvm_ctlz_i32(x) { + x = x|0; + var ret = 0; + ret = ((HEAP8[(((ctlz_i8)+(x >>> 24))>>0)])|0); + if ((ret|0) < 8) return ret|0; + ret = ((HEAP8[(((ctlz_i8)+((x >> 16)&0xff))>>0)])|0); + if ((ret|0) < 8) return (ret + 8)|0; + ret = ((HEAP8[(((ctlz_i8)+((x >> 8)&0xff))>>0)])|0); + if ((ret|0) < 8) return (ret + 16)|0; + return (((HEAP8[(((ctlz_i8)+(x&0xff))>>0)])|0) + 24)|0; + } + +function _llvm_cttz_i32(x) { + x = x|0; + var ret = 0; + ret = ((HEAP8[(((cttz_i8)+(x & 0xff))>>0)])|0); + if ((ret|0) < 8) return ret|0; + ret = ((HEAP8[(((cttz_i8)+((x >> 8)&0xff))>>0)])|0); + if ((ret|0) < 8) return (ret + 8)|0; + ret = ((HEAP8[(((cttz_i8)+((x >> 16)&0xff))>>0)])|0); + if ((ret|0) < 8) return (ret + 16)|0; + return (((HEAP8[(((cttz_i8)+(x >>> 24))>>0)])|0) + 24)|0; + } + +// ======== compiled code from system/lib/compiler-rt , see readme therein +function ___muldsi3($a, $b) { + $a = $a | 0; + $b = $b | 0; + var $1 = 0, $2 = 0, $3 = 0, $6 = 0, $8 = 0, $11 = 0, $12 = 0; + $1 = $a & 65535; + $2 = $b & 65535; + $3 = Math_imul($2, $1) | 0; + $6 = $a >>> 16; + $8 = ($3 >>> 16) + (Math_imul($2, $6) | 0) | 0; + $11 = $b >>> 16; + $12 = Math_imul($11, $1) | 0; + return (tempRet0 = (($8 >>> 16) + (Math_imul($11, $6) | 0) | 0) + ((($8 & 65535) + $12 | 0) >>> 16) | 0, 0 | ($8 + $12 << 16 | $3 & 65535)) | 0; +} +function ___divdi3($a$0, $a$1, $b$0, $b$1) { + $a$0 = $a$0 | 0; + $a$1 = $a$1 | 0; + $b$0 = $b$0 | 0; + $b$1 = $b$1 | 0; + var $1$0 = 0, $1$1 = 0, $2$0 = 0, $2$1 = 0, $4$0 = 0, $4$1 = 0, $6$0 = 0, $7$0 = 0, $7$1 = 0, $8$0 = 0, $10$0 = 0; + $1$0 = $a$1 >> 31 | (($a$1 | 0) < 0 ? -1 : 0) << 1; + $1$1 = (($a$1 | 0) < 0 ? -1 : 0) >> 31 | (($a$1 | 0) < 0 ? -1 : 0) << 1; + $2$0 = $b$1 >> 31 | (($b$1 | 0) < 0 ? -1 : 0) << 1; + $2$1 = (($b$1 | 0) < 0 ? -1 : 0) >> 31 | (($b$1 | 0) < 0 ? -1 : 0) << 1; + $4$0 = _i64Subtract($1$0 ^ $a$0, $1$1 ^ $a$1, $1$0, $1$1) | 0; + $4$1 = tempRet0; + $6$0 = _i64Subtract($2$0 ^ $b$0, $2$1 ^ $b$1, $2$0, $2$1) | 0; + $7$0 = $2$0 ^ $1$0; + $7$1 = $2$1 ^ $1$1; + $8$0 = ___udivmoddi4($4$0, $4$1, $6$0, tempRet0, 0) | 0; + $10$0 = _i64Subtract($8$0 ^ $7$0, tempRet0 ^ $7$1, $7$0, $7$1) | 0; + return (tempRet0 = tempRet0, $10$0) | 0; +} +function ___remdi3($a$0, $a$1, $b$0, $b$1) { + $a$0 = $a$0 | 0; + $a$1 = $a$1 | 0; + $b$0 = $b$0 | 0; + $b$1 = $b$1 | 0; + var $rem = 0, $1$0 = 0, $1$1 = 0, $2$0 = 0, $2$1 = 0, $4$0 = 0, $4$1 = 0, $6$0 = 0, $10$0 = 0, $10$1 = 0, __stackBase__ = 0; + __stackBase__ = STACKTOP; + STACKTOP = STACKTOP + 8 | 0; + $rem = __stackBase__ | 0; + $1$0 = $a$1 >> 31 | (($a$1 | 0) < 0 ? -1 : 0) << 1; + $1$1 = (($a$1 | 0) < 0 ? -1 : 0) >> 31 | (($a$1 | 0) < 0 ? -1 : 0) << 1; + $2$0 = $b$1 >> 31 | (($b$1 | 0) < 0 ? -1 : 0) << 1; + $2$1 = (($b$1 | 0) < 0 ? -1 : 0) >> 31 | (($b$1 | 0) < 0 ? -1 : 0) << 1; + $4$0 = _i64Subtract($1$0 ^ $a$0, $1$1 ^ $a$1, $1$0, $1$1) | 0; + $4$1 = tempRet0; + $6$0 = _i64Subtract($2$0 ^ $b$0, $2$1 ^ $b$1, $2$0, $2$1) | 0; + ___udivmoddi4($4$0, $4$1, $6$0, tempRet0, $rem) | 0; + $10$0 = _i64Subtract(HEAP32[$rem >> 2] ^ $1$0, HEAP32[$rem + 4 >> 2] ^ $1$1, $1$0, $1$1) | 0; + $10$1 = tempRet0; + STACKTOP = __stackBase__; + return (tempRet0 = $10$1, $10$0) | 0; +} +function ___muldi3($a$0, $a$1, $b$0, $b$1) { + $a$0 = $a$0 | 0; + $a$1 = $a$1 | 0; + $b$0 = $b$0 | 0; + $b$1 = $b$1 | 0; + var $x_sroa_0_0_extract_trunc = 0, $y_sroa_0_0_extract_trunc = 0, $1$0 = 0, $1$1 = 0, $2 = 0; + $x_sroa_0_0_extract_trunc = $a$0; + $y_sroa_0_0_extract_trunc = $b$0; + $1$0 = ___muldsi3($x_sroa_0_0_extract_trunc, $y_sroa_0_0_extract_trunc) | 0; + $1$1 = tempRet0; + $2 = Math_imul($a$1, $y_sroa_0_0_extract_trunc) | 0; + return (tempRet0 = ((Math_imul($b$1, $x_sroa_0_0_extract_trunc) | 0) + $2 | 0) + $1$1 | $1$1 & 0, 0 | $1$0 & -1) | 0; +} +function ___udivdi3($a$0, $a$1, $b$0, $b$1) { + $a$0 = $a$0 | 0; + $a$1 = $a$1 | 0; + $b$0 = $b$0 | 0; + $b$1 = $b$1 | 0; + var $1$0 = 0; + $1$0 = ___udivmoddi4($a$0, $a$1, $b$0, $b$1, 0) | 0; + return (tempRet0 = tempRet0, $1$0) | 0; +} +function ___uremdi3($a$0, $a$1, $b$0, $b$1) { + $a$0 = $a$0 | 0; + $a$1 = $a$1 | 0; + $b$0 = $b$0 | 0; + $b$1 = $b$1 | 0; + var $rem = 0, __stackBase__ = 0; + __stackBase__ = STACKTOP; + STACKTOP = STACKTOP + 8 | 0; + $rem = __stackBase__ | 0; + ___udivmoddi4($a$0, $a$1, $b$0, $b$1, $rem) | 0; + STACKTOP = __stackBase__; + return (tempRet0 = HEAP32[$rem + 4 >> 2] | 0, HEAP32[$rem >> 2] | 0) | 0; +} +function ___udivmoddi4($a$0, $a$1, $b$0, $b$1, $rem) { + $a$0 = $a$0 | 0; + $a$1 = $a$1 | 0; + $b$0 = $b$0 | 0; + $b$1 = $b$1 | 0; + $rem = $rem | 0; + var $n_sroa_0_0_extract_trunc = 0, $n_sroa_1_4_extract_shift$0 = 0, $n_sroa_1_4_extract_trunc = 0, $d_sroa_0_0_extract_trunc = 0, $d_sroa_1_4_extract_shift$0 = 0, $d_sroa_1_4_extract_trunc = 0, $4 = 0, $17 = 0, $37 = 0, $49 = 0, $51 = 0, $57 = 0, $58 = 0, $66 = 0, $78 = 0, $86 = 0, $88 = 0, $89 = 0, $91 = 0, $92 = 0, $95 = 0, $105 = 0, $117 = 0, $119 = 0, $125 = 0, $126 = 0, $130 = 0, $q_sroa_1_1_ph = 0, $q_sroa_0_1_ph = 0, $r_sroa_1_1_ph = 0, $r_sroa_0_1_ph = 0, $sr_1_ph = 0, $d_sroa_0_0_insert_insert99$0 = 0, $d_sroa_0_0_insert_insert99$1 = 0, $137$0 = 0, $137$1 = 0, $carry_0203 = 0, $sr_1202 = 0, $r_sroa_0_1201 = 0, $r_sroa_1_1200 = 0, $q_sroa_0_1199 = 0, $q_sroa_1_1198 = 0, $147 = 0, $149 = 0, $r_sroa_0_0_insert_insert42$0 = 0, $r_sroa_0_0_insert_insert42$1 = 0, $150$1 = 0, $151$0 = 0, $152 = 0, $154$0 = 0, $r_sroa_0_0_extract_trunc = 0, $r_sroa_1_4_extract_trunc = 0, $155 = 0, $carry_0_lcssa$0 = 0, $carry_0_lcssa$1 = 0, $r_sroa_0_1_lcssa = 0, $r_sroa_1_1_lcssa = 0, $q_sroa_0_1_lcssa = 0, $q_sroa_1_1_lcssa = 0, $q_sroa_0_0_insert_ext75$0 = 0, $q_sroa_0_0_insert_ext75$1 = 0, $q_sroa_0_0_insert_insert77$1 = 0, $_0$0 = 0, $_0$1 = 0; + $n_sroa_0_0_extract_trunc = $a$0; + $n_sroa_1_4_extract_shift$0 = $a$1; + $n_sroa_1_4_extract_trunc = $n_sroa_1_4_extract_shift$0; + $d_sroa_0_0_extract_trunc = $b$0; + $d_sroa_1_4_extract_shift$0 = $b$1; + $d_sroa_1_4_extract_trunc = $d_sroa_1_4_extract_shift$0; + if (($n_sroa_1_4_extract_trunc | 0) == 0) { + $4 = ($rem | 0) != 0; + if (($d_sroa_1_4_extract_trunc | 0) == 0) { + if ($4) { + HEAP32[$rem >> 2] = ($n_sroa_0_0_extract_trunc >>> 0) % ($d_sroa_0_0_extract_trunc >>> 0); + HEAP32[$rem + 4 >> 2] = 0; + } + $_0$1 = 0; + $_0$0 = ($n_sroa_0_0_extract_trunc >>> 0) / ($d_sroa_0_0_extract_trunc >>> 0) >>> 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } else { + if (!$4) { + $_0$1 = 0; + $_0$0 = 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + HEAP32[$rem >> 2] = $a$0 & -1; + HEAP32[$rem + 4 >> 2] = $a$1 & 0; + $_0$1 = 0; + $_0$0 = 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + } + $17 = ($d_sroa_1_4_extract_trunc | 0) == 0; + do { + if (($d_sroa_0_0_extract_trunc | 0) == 0) { + if ($17) { + if (($rem | 0) != 0) { + HEAP32[$rem >> 2] = ($n_sroa_1_4_extract_trunc >>> 0) % ($d_sroa_0_0_extract_trunc >>> 0); + HEAP32[$rem + 4 >> 2] = 0; + } + $_0$1 = 0; + $_0$0 = ($n_sroa_1_4_extract_trunc >>> 0) / ($d_sroa_0_0_extract_trunc >>> 0) >>> 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + if (($n_sroa_0_0_extract_trunc | 0) == 0) { + if (($rem | 0) != 0) { + HEAP32[$rem >> 2] = 0; + HEAP32[$rem + 4 >> 2] = ($n_sroa_1_4_extract_trunc >>> 0) % ($d_sroa_1_4_extract_trunc >>> 0); + } + $_0$1 = 0; + $_0$0 = ($n_sroa_1_4_extract_trunc >>> 0) / ($d_sroa_1_4_extract_trunc >>> 0) >>> 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + $37 = $d_sroa_1_4_extract_trunc - 1 | 0; + if (($37 & $d_sroa_1_4_extract_trunc | 0) == 0) { + if (($rem | 0) != 0) { + HEAP32[$rem >> 2] = 0 | $a$0 & -1; + HEAP32[$rem + 4 >> 2] = $37 & $n_sroa_1_4_extract_trunc | $a$1 & 0; + } + $_0$1 = 0; + $_0$0 = $n_sroa_1_4_extract_trunc >>> ((_llvm_cttz_i32($d_sroa_1_4_extract_trunc | 0) | 0) >>> 0); + return (tempRet0 = $_0$1, $_0$0) | 0; + } + $49 = _llvm_ctlz_i32($d_sroa_1_4_extract_trunc | 0) | 0; + $51 = $49 - (_llvm_ctlz_i32($n_sroa_1_4_extract_trunc | 0) | 0) | 0; + if ($51 >>> 0 <= 30) { + $57 = $51 + 1 | 0; + $58 = 31 - $51 | 0; + $sr_1_ph = $57; + $r_sroa_0_1_ph = $n_sroa_1_4_extract_trunc << $58 | $n_sroa_0_0_extract_trunc >>> ($57 >>> 0); + $r_sroa_1_1_ph = $n_sroa_1_4_extract_trunc >>> ($57 >>> 0); + $q_sroa_0_1_ph = 0; + $q_sroa_1_1_ph = $n_sroa_0_0_extract_trunc << $58; + break; + } + if (($rem | 0) == 0) { + $_0$1 = 0; + $_0$0 = 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + HEAP32[$rem >> 2] = 0 | $a$0 & -1; + HEAP32[$rem + 4 >> 2] = $n_sroa_1_4_extract_shift$0 | $a$1 & 0; + $_0$1 = 0; + $_0$0 = 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } else { + if (!$17) { + $117 = _llvm_ctlz_i32($d_sroa_1_4_extract_trunc | 0) | 0; + $119 = $117 - (_llvm_ctlz_i32($n_sroa_1_4_extract_trunc | 0) | 0) | 0; + if ($119 >>> 0 <= 31) { + $125 = $119 + 1 | 0; + $126 = 31 - $119 | 0; + $130 = $119 - 31 >> 31; + $sr_1_ph = $125; + $r_sroa_0_1_ph = $n_sroa_0_0_extract_trunc >>> ($125 >>> 0) & $130 | $n_sroa_1_4_extract_trunc << $126; + $r_sroa_1_1_ph = $n_sroa_1_4_extract_trunc >>> ($125 >>> 0) & $130; + $q_sroa_0_1_ph = 0; + $q_sroa_1_1_ph = $n_sroa_0_0_extract_trunc << $126; + break; + } + if (($rem | 0) == 0) { + $_0$1 = 0; + $_0$0 = 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + HEAP32[$rem >> 2] = 0 | $a$0 & -1; + HEAP32[$rem + 4 >> 2] = $n_sroa_1_4_extract_shift$0 | $a$1 & 0; + $_0$1 = 0; + $_0$0 = 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + $66 = $d_sroa_0_0_extract_trunc - 1 | 0; + if (($66 & $d_sroa_0_0_extract_trunc | 0) != 0) { + $86 = (_llvm_ctlz_i32($d_sroa_0_0_extract_trunc | 0) | 0) + 33 | 0; + $88 = $86 - (_llvm_ctlz_i32($n_sroa_1_4_extract_trunc | 0) | 0) | 0; + $89 = 64 - $88 | 0; + $91 = 32 - $88 | 0; + $92 = $91 >> 31; + $95 = $88 - 32 | 0; + $105 = $95 >> 31; + $sr_1_ph = $88; + $r_sroa_0_1_ph = $91 - 1 >> 31 & $n_sroa_1_4_extract_trunc >>> ($95 >>> 0) | ($n_sroa_1_4_extract_trunc << $91 | $n_sroa_0_0_extract_trunc >>> ($88 >>> 0)) & $105; + $r_sroa_1_1_ph = $105 & $n_sroa_1_4_extract_trunc >>> ($88 >>> 0); + $q_sroa_0_1_ph = $n_sroa_0_0_extract_trunc << $89 & $92; + $q_sroa_1_1_ph = ($n_sroa_1_4_extract_trunc << $89 | $n_sroa_0_0_extract_trunc >>> ($95 >>> 0)) & $92 | $n_sroa_0_0_extract_trunc << $91 & $88 - 33 >> 31; + break; + } + if (($rem | 0) != 0) { + HEAP32[$rem >> 2] = $66 & $n_sroa_0_0_extract_trunc; + HEAP32[$rem + 4 >> 2] = 0; + } + if (($d_sroa_0_0_extract_trunc | 0) == 1) { + $_0$1 = $n_sroa_1_4_extract_shift$0 | $a$1 & 0; + $_0$0 = 0 | $a$0 & -1; + return (tempRet0 = $_0$1, $_0$0) | 0; + } else { + $78 = _llvm_cttz_i32($d_sroa_0_0_extract_trunc | 0) | 0; + $_0$1 = 0 | $n_sroa_1_4_extract_trunc >>> ($78 >>> 0); + $_0$0 = $n_sroa_1_4_extract_trunc << 32 - $78 | $n_sroa_0_0_extract_trunc >>> ($78 >>> 0) | 0; + return (tempRet0 = $_0$1, $_0$0) | 0; + } + } + } while (0); + if (($sr_1_ph | 0) == 0) { + $q_sroa_1_1_lcssa = $q_sroa_1_1_ph; + $q_sroa_0_1_lcssa = $q_sroa_0_1_ph; + $r_sroa_1_1_lcssa = $r_sroa_1_1_ph; + $r_sroa_0_1_lcssa = $r_sroa_0_1_ph; + $carry_0_lcssa$1 = 0; + $carry_0_lcssa$0 = 0; + } else { + $d_sroa_0_0_insert_insert99$0 = 0 | $b$0 & -1; + $d_sroa_0_0_insert_insert99$1 = $d_sroa_1_4_extract_shift$0 | $b$1 & 0; + $137$0 = _i64Add($d_sroa_0_0_insert_insert99$0, $d_sroa_0_0_insert_insert99$1, -1, -1) | 0; + $137$1 = tempRet0; + $q_sroa_1_1198 = $q_sroa_1_1_ph; + $q_sroa_0_1199 = $q_sroa_0_1_ph; + $r_sroa_1_1200 = $r_sroa_1_1_ph; + $r_sroa_0_1201 = $r_sroa_0_1_ph; + $sr_1202 = $sr_1_ph; + $carry_0203 = 0; + while (1) { + $147 = $q_sroa_0_1199 >>> 31 | $q_sroa_1_1198 << 1; + $149 = $carry_0203 | $q_sroa_0_1199 << 1; + $r_sroa_0_0_insert_insert42$0 = 0 | ($r_sroa_0_1201 << 1 | $q_sroa_1_1198 >>> 31); + $r_sroa_0_0_insert_insert42$1 = $r_sroa_0_1201 >>> 31 | $r_sroa_1_1200 << 1 | 0; + _i64Subtract($137$0, $137$1, $r_sroa_0_0_insert_insert42$0, $r_sroa_0_0_insert_insert42$1) | 0; + $150$1 = tempRet0; + $151$0 = $150$1 >> 31 | (($150$1 | 0) < 0 ? -1 : 0) << 1; + $152 = $151$0 & 1; + $154$0 = _i64Subtract($r_sroa_0_0_insert_insert42$0, $r_sroa_0_0_insert_insert42$1, $151$0 & $d_sroa_0_0_insert_insert99$0, ((($150$1 | 0) < 0 ? -1 : 0) >> 31 | (($150$1 | 0) < 0 ? -1 : 0) << 1) & $d_sroa_0_0_insert_insert99$1) | 0; + $r_sroa_0_0_extract_trunc = $154$0; + $r_sroa_1_4_extract_trunc = tempRet0; + $155 = $sr_1202 - 1 | 0; + if (($155 | 0) == 0) { + break; + } else { + $q_sroa_1_1198 = $147; + $q_sroa_0_1199 = $149; + $r_sroa_1_1200 = $r_sroa_1_4_extract_trunc; + $r_sroa_0_1201 = $r_sroa_0_0_extract_trunc; + $sr_1202 = $155; + $carry_0203 = $152; + } + } + $q_sroa_1_1_lcssa = $147; + $q_sroa_0_1_lcssa = $149; + $r_sroa_1_1_lcssa = $r_sroa_1_4_extract_trunc; + $r_sroa_0_1_lcssa = $r_sroa_0_0_extract_trunc; + $carry_0_lcssa$1 = 0; + $carry_0_lcssa$0 = $152; + } + $q_sroa_0_0_insert_ext75$0 = $q_sroa_0_1_lcssa; + $q_sroa_0_0_insert_ext75$1 = 0; + $q_sroa_0_0_insert_insert77$1 = $q_sroa_1_1_lcssa | $q_sroa_0_0_insert_ext75$1; + if (($rem | 0) != 0) { + HEAP32[$rem >> 2] = 0 | $r_sroa_0_1_lcssa; + HEAP32[$rem + 4 >> 2] = $r_sroa_1_1_lcssa | 0; + } + $_0$1 = (0 | $q_sroa_0_0_insert_ext75$0) >>> 31 | $q_sroa_0_0_insert_insert77$1 << 1 | ($q_sroa_0_0_insert_ext75$1 << 1 | $q_sroa_0_0_insert_ext75$0 >>> 31) & 0 | $carry_0_lcssa$1; + $_0$0 = ($q_sroa_0_0_insert_ext75$0 << 1 | 0 >>> 31) & -2 | $carry_0_lcssa$0; + return (tempRet0 = $_0$1, $_0$0) | 0; +} +// ======================================================================= + + + +// EMSCRIPTEN_END_FUNCS + + + + // EMSCRIPTEN_END_FUNCS + + + return { _curve25519_verify: _curve25519_verify, _crypto_sign_ed25519_ref10_ge_scalarmult_base: _crypto_sign_ed25519_ref10_ge_scalarmult_base, _curve25519_sign: _curve25519_sign, _free: _free, _i64Add: _i64Add, _memmove: _memmove, _bitshift64Ashr: _bitshift64Ashr, _sph_sha512_init: _sph_sha512_init, _curve25519_donna: _curve25519_donna, _memset: _memset, _malloc: _malloc, _memcpy: _memcpy, _strlen: _strlen, _bitshift64Lshr: _bitshift64Lshr, _i64Subtract: _i64Subtract, _bitshift64Shl: _bitshift64Shl, runPostSets: runPostSets, stackAlloc: stackAlloc, stackSave: stackSave, stackRestore: stackRestore, setThrew: setThrew, setTempRet0: setTempRet0, getTempRet0: getTempRet0 }; +}) +// EMSCRIPTEN_END_ASM +(Module.asmGlobalArg, Module.asmLibraryArg, buffer); +var _curve25519_verify = Module["_curve25519_verify"] = asm["_curve25519_verify"]; +var _crypto_sign_ed25519_ref10_ge_scalarmult_base = Module["_crypto_sign_ed25519_ref10_ge_scalarmult_base"] = asm["_crypto_sign_ed25519_ref10_ge_scalarmult_base"]; +var _curve25519_sign = Module["_curve25519_sign"] = asm["_curve25519_sign"]; +var _free = Module["_free"] = asm["_free"]; +var _i64Add = Module["_i64Add"] = asm["_i64Add"]; +var _memmove = Module["_memmove"] = asm["_memmove"]; +var _bitshift64Ashr = Module["_bitshift64Ashr"] = asm["_bitshift64Ashr"]; +var _sph_sha512_init = Module["_sph_sha512_init"] = asm["_sph_sha512_init"]; +var _curve25519_donna = Module["_curve25519_donna"] = asm["_curve25519_donna"]; +var _memset = Module["_memset"] = asm["_memset"]; +var _malloc = Module["_malloc"] = asm["_malloc"]; +var _memcpy = Module["_memcpy"] = asm["_memcpy"]; +var _strlen = Module["_strlen"] = asm["_strlen"]; +var _bitshift64Lshr = Module["_bitshift64Lshr"] = asm["_bitshift64Lshr"]; +var _i64Subtract = Module["_i64Subtract"] = asm["_i64Subtract"]; +var _bitshift64Shl = Module["_bitshift64Shl"] = asm["_bitshift64Shl"]; +var runPostSets = Module["runPostSets"] = asm["runPostSets"]; + +Runtime.stackAlloc = asm['stackAlloc']; +Runtime.stackSave = asm['stackSave']; +Runtime.stackRestore = asm['stackRestore']; +Runtime.setTempRet0 = asm['setTempRet0']; +Runtime.getTempRet0 = asm['getTempRet0']; + + +// TODO: strip out parts of this we do not need + +//======= begin closure i64 code ======= + +// Copyright 2009 The Closure Library Authors. All Rights Reserved. +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS-IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +/** + * @fileoverview Defines a Long class for representing a 64-bit two's-complement + * integer value, which faithfully simulates the behavior of a Java "long". This + * implementation is derived from LongLib in GWT. + * + */ + +var i64Math = (function() { // Emscripten wrapper + var goog = { math: {} }; + + + /** + * Constructs a 64-bit two's-complement integer, given its low and high 32-bit + * values as *signed* integers. See the from* functions below for more + * convenient ways of constructing Longs. + * + * The internal representation of a long is the two given signed, 32-bit values. + * We use 32-bit pieces because these are the size of integers on which + * Javascript performs bit-operations. For operations like addition and + * multiplication, we split each number into 16-bit pieces, which can easily be + * multiplied within Javascript's floating-point representation without overflow + * or change in sign. + * + * In the algorithms below, we frequently reduce the negative case to the + * positive case by negating the input(s) and then post-processing the result. + * Note that we must ALWAYS check specially whether those values are MIN_VALUE + * (-2^63) because -MIN_VALUE == MIN_VALUE (since 2^63 cannot be represented as + * a positive number, it overflows back into a negative). Not handling this + * case would often result in infinite recursion. + * + * @param {number} low The low (signed) 32 bits of the long. + * @param {number} high The high (signed) 32 bits of the long. + * @constructor + */ + goog.math.Long = function(low, high) { + /** + * @type {number} + * @private + */ + this.low_ = low | 0; // force into 32 signed bits. + + /** + * @type {number} + * @private + */ + this.high_ = high | 0; // force into 32 signed bits. + }; + + + // NOTE: Common constant values ZERO, ONE, NEG_ONE, etc. are defined below the + // from* methods on which they depend. + + + /** + * A cache of the Long representations of small integer values. + * @type {!Object} + * @private + */ + goog.math.Long.IntCache_ = {}; + + + /** + * Returns a Long representing the given (32-bit) integer value. + * @param {number} value The 32-bit integer in question. + * @return {!goog.math.Long} The corresponding Long value. + */ + goog.math.Long.fromInt = function(value) { + if (-128 <= value && value < 128) { + var cachedObj = goog.math.Long.IntCache_[value]; + if (cachedObj) { + return cachedObj; + } + } + + var obj = new goog.math.Long(value | 0, value < 0 ? -1 : 0); + if (-128 <= value && value < 128) { + goog.math.Long.IntCache_[value] = obj; + } + return obj; + }; + + + /** + * Returns a Long representing the given value, provided that it is a finite + * number. Otherwise, zero is returned. + * @param {number} value The number in question. + * @return {!goog.math.Long} The corresponding Long value. + */ + goog.math.Long.fromNumber = function(value) { + if (isNaN(value) || !isFinite(value)) { + return goog.math.Long.ZERO; + } else if (value <= -goog.math.Long.TWO_PWR_63_DBL_) { + return goog.math.Long.MIN_VALUE; + } else if (value + 1 >= goog.math.Long.TWO_PWR_63_DBL_) { + return goog.math.Long.MAX_VALUE; + } else if (value < 0) { + return goog.math.Long.fromNumber(-value).negate(); + } else { + return new goog.math.Long( + (value % goog.math.Long.TWO_PWR_32_DBL_) | 0, + (value / goog.math.Long.TWO_PWR_32_DBL_) | 0); + } + }; + + + /** + * Returns a Long representing the 64-bit integer that comes by concatenating + * the given high and low bits. Each is assumed to use 32 bits. + * @param {number} lowBits The low 32-bits. + * @param {number} highBits The high 32-bits. + * @return {!goog.math.Long} The corresponding Long value. + */ + goog.math.Long.fromBits = function(lowBits, highBits) { + return new goog.math.Long(lowBits, highBits); + }; + + + /** + * Returns a Long representation of the given string, written using the given + * radix. + * @param {string} str The textual representation of the Long. + * @param {number=} opt_radix The radix in which the text is written. + * @return {!goog.math.Long} The corresponding Long value. + */ + goog.math.Long.fromString = function(str, opt_radix) { + if (str.length == 0) { + throw Error('number format error: empty string'); + } + + var radix = opt_radix || 10; + if (radix < 2 || 36 < radix) { + throw Error('radix out of range: ' + radix); + } + + if (str.charAt(0) == '-') { + return goog.math.Long.fromString(str.substring(1), radix).negate(); + } else if (str.indexOf('-') >= 0) { + throw Error('number format error: interior "-" character: ' + str); + } + + // Do several (8) digits each time through the loop, so as to + // minimize the calls to the very expensive emulated div. + var radixToPower = goog.math.Long.fromNumber(Math.pow(radix, 8)); + + var result = goog.math.Long.ZERO; + for (var i = 0; i < str.length; i += 8) { + var size = Math.min(8, str.length - i); + var value = parseInt(str.substring(i, i + size), radix); + if (size < 8) { + var power = goog.math.Long.fromNumber(Math.pow(radix, size)); + result = result.multiply(power).add(goog.math.Long.fromNumber(value)); + } else { + result = result.multiply(radixToPower); + result = result.add(goog.math.Long.fromNumber(value)); + } + } + return result; + }; + + + // NOTE: the compiler should inline these constant values below and then remove + // these variables, so there should be no runtime penalty for these. + + + /** + * Number used repeated below in calculations. This must appear before the + * first call to any from* function below. + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_16_DBL_ = 1 << 16; + + + /** + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_24_DBL_ = 1 << 24; + + + /** + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_32_DBL_ = + goog.math.Long.TWO_PWR_16_DBL_ * goog.math.Long.TWO_PWR_16_DBL_; + + + /** + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_31_DBL_ = + goog.math.Long.TWO_PWR_32_DBL_ / 2; + + + /** + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_48_DBL_ = + goog.math.Long.TWO_PWR_32_DBL_ * goog.math.Long.TWO_PWR_16_DBL_; + + + /** + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_64_DBL_ = + goog.math.Long.TWO_PWR_32_DBL_ * goog.math.Long.TWO_PWR_32_DBL_; + + + /** + * @type {number} + * @private + */ + goog.math.Long.TWO_PWR_63_DBL_ = + goog.math.Long.TWO_PWR_64_DBL_ / 2; + + + /** @type {!goog.math.Long} */ + goog.math.Long.ZERO = goog.math.Long.fromInt(0); + + + /** @type {!goog.math.Long} */ + goog.math.Long.ONE = goog.math.Long.fromInt(1); + + + /** @type {!goog.math.Long} */ + goog.math.Long.NEG_ONE = goog.math.Long.fromInt(-1); + + + /** @type {!goog.math.Long} */ + goog.math.Long.MAX_VALUE = + goog.math.Long.fromBits(0xFFFFFFFF | 0, 0x7FFFFFFF | 0); + + + /** @type {!goog.math.Long} */ + goog.math.Long.MIN_VALUE = goog.math.Long.fromBits(0, 0x80000000 | 0); + + + /** + * @type {!goog.math.Long} + * @private + */ + goog.math.Long.TWO_PWR_24_ = goog.math.Long.fromInt(1 << 24); + + + /** @return {number} The value, assuming it is a 32-bit integer. */ + goog.math.Long.prototype.toInt = function() { + return this.low_; + }; + + + /** @return {number} The closest floating-point representation to this value. */ + goog.math.Long.prototype.toNumber = function() { + return this.high_ * goog.math.Long.TWO_PWR_32_DBL_ + + this.getLowBitsUnsigned(); + }; + + + /** + * @param {number=} opt_radix The radix in which the text should be written. + * @return {string} The textual representation of this value. + */ + goog.math.Long.prototype.toString = function(opt_radix) { + var radix = opt_radix || 10; + if (radix < 2 || 36 < radix) { + throw Error('radix out of range: ' + radix); + } + + if (this.isZero()) { + return '0'; + } + + if (this.isNegative()) { + if (this.equals(goog.math.Long.MIN_VALUE)) { + // We need to change the Long value before it can be negated, so we remove + // the bottom-most digit in this base and then recurse to do the rest. + var radixLong = goog.math.Long.fromNumber(radix); + var div = this.div(radixLong); + var rem = div.multiply(radixLong).subtract(this); + return div.toString(radix) + rem.toInt().toString(radix); + } else { + return '-' + this.negate().toString(radix); + } + } + + // Do several (6) digits each time through the loop, so as to + // minimize the calls to the very expensive emulated div. + var radixToPower = goog.math.Long.fromNumber(Math.pow(radix, 6)); + + var rem = this; + var result = ''; + while (true) { + var remDiv = rem.div(radixToPower); + var intval = rem.subtract(remDiv.multiply(radixToPower)).toInt(); + var digits = intval.toString(radix); + + rem = remDiv; + if (rem.isZero()) { + return digits + result; + } else { + while (digits.length < 6) { + digits = '0' + digits; + } + result = '' + digits + result; + } + } + }; + + + /** @return {number} The high 32-bits as a signed value. */ + goog.math.Long.prototype.getHighBits = function() { + return this.high_; + }; + + + /** @return {number} The low 32-bits as a signed value. */ + goog.math.Long.prototype.getLowBits = function() { + return this.low_; + }; + + + /** @return {number} The low 32-bits as an unsigned value. */ + goog.math.Long.prototype.getLowBitsUnsigned = function() { + return (this.low_ >= 0) ? + this.low_ : goog.math.Long.TWO_PWR_32_DBL_ + this.low_; + }; + + + /** + * @return {number} Returns the number of bits needed to represent the absolute + * value of this Long. + */ + goog.math.Long.prototype.getNumBitsAbs = function() { + if (this.isNegative()) { + if (this.equals(goog.math.Long.MIN_VALUE)) { + return 64; + } else { + return this.negate().getNumBitsAbs(); + } + } else { + var val = this.high_ != 0 ? this.high_ : this.low_; + for (var bit = 31; bit > 0; bit--) { + if ((val & (1 << bit)) != 0) { + break; + } + } + return this.high_ != 0 ? bit + 33 : bit + 1; + } + }; + + + /** @return {boolean} Whether this value is zero. */ + goog.math.Long.prototype.isZero = function() { + return this.high_ == 0 && this.low_ == 0; + }; + + + /** @return {boolean} Whether this value is negative. */ + goog.math.Long.prototype.isNegative = function() { + return this.high_ < 0; + }; + + + /** @return {boolean} Whether this value is odd. */ + goog.math.Long.prototype.isOdd = function() { + return (this.low_ & 1) == 1; + }; + + + /** + * @param {goog.math.Long} other Long to compare against. + * @return {boolean} Whether this Long equals the other. + */ + goog.math.Long.prototype.equals = function(other) { + return (this.high_ == other.high_) && (this.low_ == other.low_); + }; + + + /** + * @param {goog.math.Long} other Long to compare against. + * @return {boolean} Whether this Long does not equal the other. + */ + goog.math.Long.prototype.notEquals = function(other) { + return (this.high_ != other.high_) || (this.low_ != other.low_); + }; + + + /** + * @param {goog.math.Long} other Long to compare against. + * @return {boolean} Whether this Long is less than the other. + */ + goog.math.Long.prototype.lessThan = function(other) { + return this.compare(other) < 0; + }; + + + /** + * @param {goog.math.Long} other Long to compare against. + * @return {boolean} Whether this Long is less than or equal to the other. + */ + goog.math.Long.prototype.lessThanOrEqual = function(other) { + return this.compare(other) <= 0; + }; + + + /** + * @param {goog.math.Long} other Long to compare against. + * @return {boolean} Whether this Long is greater than the other. + */ + goog.math.Long.prototype.greaterThan = function(other) { + return this.compare(other) > 0; + }; + + + /** + * @param {goog.math.Long} other Long to compare against. + * @return {boolean} Whether this Long is greater than or equal to the other. + */ + goog.math.Long.prototype.greaterThanOrEqual = function(other) { + return this.compare(other) >= 0; + }; + + + /** + * Compares this Long with the given one. + * @param {goog.math.Long} other Long to compare against. + * @return {number} 0 if they are the same, 1 if the this is greater, and -1 + * if the given one is greater. + */ + goog.math.Long.prototype.compare = function(other) { + if (this.equals(other)) { + return 0; + } + + var thisNeg = this.isNegative(); + var otherNeg = other.isNegative(); + if (thisNeg && !otherNeg) { + return -1; + } + if (!thisNeg && otherNeg) { + return 1; + } + + // at this point, the signs are the same, so subtraction will not overflow + if (this.subtract(other).isNegative()) { + return -1; + } else { + return 1; + } + }; + + + /** @return {!goog.math.Long} The negation of this value. */ + goog.math.Long.prototype.negate = function() { + if (this.equals(goog.math.Long.MIN_VALUE)) { + return goog.math.Long.MIN_VALUE; + } else { + return this.not().add(goog.math.Long.ONE); + } + }; + + + /** + * Returns the sum of this and the given Long. + * @param {goog.math.Long} other Long to add to this one. + * @return {!goog.math.Long} The sum of this and the given Long. + */ + goog.math.Long.prototype.add = function(other) { + // Divide each number into 4 chunks of 16 bits, and then sum the chunks. + + var a48 = this.high_ >>> 16; + var a32 = this.high_ & 0xFFFF; + var a16 = this.low_ >>> 16; + var a00 = this.low_ & 0xFFFF; + + var b48 = other.high_ >>> 16; + var b32 = other.high_ & 0xFFFF; + var b16 = other.low_ >>> 16; + var b00 = other.low_ & 0xFFFF; + + var c48 = 0, c32 = 0, c16 = 0, c00 = 0; + c00 += a00 + b00; + c16 += c00 >>> 16; + c00 &= 0xFFFF; + c16 += a16 + b16; + c32 += c16 >>> 16; + c16 &= 0xFFFF; + c32 += a32 + b32; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c48 += a48 + b48; + c48 &= 0xFFFF; + return goog.math.Long.fromBits((c16 << 16) | c00, (c48 << 16) | c32); + }; + + + /** + * Returns the difference of this and the given Long. + * @param {goog.math.Long} other Long to subtract from this. + * @return {!goog.math.Long} The difference of this and the given Long. + */ + goog.math.Long.prototype.subtract = function(other) { + return this.add(other.negate()); + }; + + + /** + * Returns the product of this and the given long. + * @param {goog.math.Long} other Long to multiply with this. + * @return {!goog.math.Long} The product of this and the other. + */ + goog.math.Long.prototype.multiply = function(other) { + if (this.isZero()) { + return goog.math.Long.ZERO; + } else if (other.isZero()) { + return goog.math.Long.ZERO; + } + + if (this.equals(goog.math.Long.MIN_VALUE)) { + return other.isOdd() ? goog.math.Long.MIN_VALUE : goog.math.Long.ZERO; + } else if (other.equals(goog.math.Long.MIN_VALUE)) { + return this.isOdd() ? goog.math.Long.MIN_VALUE : goog.math.Long.ZERO; + } + + if (this.isNegative()) { + if (other.isNegative()) { + return this.negate().multiply(other.negate()); + } else { + return this.negate().multiply(other).negate(); + } + } else if (other.isNegative()) { + return this.multiply(other.negate()).negate(); + } + + // If both longs are small, use float multiplication + if (this.lessThan(goog.math.Long.TWO_PWR_24_) && + other.lessThan(goog.math.Long.TWO_PWR_24_)) { + return goog.math.Long.fromNumber(this.toNumber() * other.toNumber()); + } + + // Divide each long into 4 chunks of 16 bits, and then add up 4x4 products. + // We can skip products that would overflow. + + var a48 = this.high_ >>> 16; + var a32 = this.high_ & 0xFFFF; + var a16 = this.low_ >>> 16; + var a00 = this.low_ & 0xFFFF; + + var b48 = other.high_ >>> 16; + var b32 = other.high_ & 0xFFFF; + var b16 = other.low_ >>> 16; + var b00 = other.low_ & 0xFFFF; + + var c48 = 0, c32 = 0, c16 = 0, c00 = 0; + c00 += a00 * b00; + c16 += c00 >>> 16; + c00 &= 0xFFFF; + c16 += a16 * b00; + c32 += c16 >>> 16; + c16 &= 0xFFFF; + c16 += a00 * b16; + c32 += c16 >>> 16; + c16 &= 0xFFFF; + c32 += a32 * b00; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c32 += a16 * b16; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c32 += a00 * b32; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c48 += a48 * b00 + a32 * b16 + a16 * b32 + a00 * b48; + c48 &= 0xFFFF; + return goog.math.Long.fromBits((c16 << 16) | c00, (c48 << 16) | c32); + }; + + + /** + * Returns this Long divided by the given one. + * @param {goog.math.Long} other Long by which to divide. + * @return {!goog.math.Long} This Long divided by the given one. + */ + goog.math.Long.prototype.div = function(other) { + if (other.isZero()) { + throw Error('division by zero'); + } else if (this.isZero()) { + return goog.math.Long.ZERO; + } + + if (this.equals(goog.math.Long.MIN_VALUE)) { + if (other.equals(goog.math.Long.ONE) || + other.equals(goog.math.Long.NEG_ONE)) { + return goog.math.Long.MIN_VALUE; // recall that -MIN_VALUE == MIN_VALUE + } else if (other.equals(goog.math.Long.MIN_VALUE)) { + return goog.math.Long.ONE; + } else { + // At this point, we have |other| >= 2, so |this/other| < |MIN_VALUE|. + var halfThis = this.shiftRight(1); + var approx = halfThis.div(other).shiftLeft(1); + if (approx.equals(goog.math.Long.ZERO)) { + return other.isNegative() ? goog.math.Long.ONE : goog.math.Long.NEG_ONE; + } else { + var rem = this.subtract(other.multiply(approx)); + var result = approx.add(rem.div(other)); + return result; + } + } + } else if (other.equals(goog.math.Long.MIN_VALUE)) { + return goog.math.Long.ZERO; + } + + if (this.isNegative()) { + if (other.isNegative()) { + return this.negate().div(other.negate()); + } else { + return this.negate().div(other).negate(); + } + } else if (other.isNegative()) { + return this.div(other.negate()).negate(); + } + + // Repeat the following until the remainder is less than other: find a + // floating-point that approximates remainder / other *from below*, add this + // into the result, and subtract it from the remainder. It is critical that + // the approximate value is less than or equal to the real value so that the + // remainder never becomes negative. + var res = goog.math.Long.ZERO; + var rem = this; + while (rem.greaterThanOrEqual(other)) { + // Approximate the result of division. This may be a little greater or + // smaller than the actual value. + var approx = Math.max(1, Math.floor(rem.toNumber() / other.toNumber())); + + // We will tweak the approximate result by changing it in the 48-th digit or + // the smallest non-fractional digit, whichever is larger. + var log2 = Math.ceil(Math.log(approx) / Math.LN2); + var delta = (log2 <= 48) ? 1 : Math.pow(2, log2 - 48); + + // Decrease the approximation until it is smaller than the remainder. Note + // that if it is too large, the product overflows and is negative. + var approxRes = goog.math.Long.fromNumber(approx); + var approxRem = approxRes.multiply(other); + while (approxRem.isNegative() || approxRem.greaterThan(rem)) { + approx -= delta; + approxRes = goog.math.Long.fromNumber(approx); + approxRem = approxRes.multiply(other); + } + + // We know the answer can't be zero... and actually, zero would cause + // infinite recursion since we would make no progress. + if (approxRes.isZero()) { + approxRes = goog.math.Long.ONE; + } + + res = res.add(approxRes); + rem = rem.subtract(approxRem); + } + return res; + }; + + + /** + * Returns this Long modulo the given one. + * @param {goog.math.Long} other Long by which to mod. + * @return {!goog.math.Long} This Long modulo the given one. + */ + goog.math.Long.prototype.modulo = function(other) { + return this.subtract(this.div(other).multiply(other)); + }; + + + /** @return {!goog.math.Long} The bitwise-NOT of this value. */ + goog.math.Long.prototype.not = function() { + return goog.math.Long.fromBits(~this.low_, ~this.high_); + }; + + + /** + * Returns the bitwise-AND of this Long and the given one. + * @param {goog.math.Long} other The Long with which to AND. + * @return {!goog.math.Long} The bitwise-AND of this and the other. + */ + goog.math.Long.prototype.and = function(other) { + return goog.math.Long.fromBits(this.low_ & other.low_, + this.high_ & other.high_); + }; + + + /** + * Returns the bitwise-OR of this Long and the given one. + * @param {goog.math.Long} other The Long with which to OR. + * @return {!goog.math.Long} The bitwise-OR of this and the other. + */ + goog.math.Long.prototype.or = function(other) { + return goog.math.Long.fromBits(this.low_ | other.low_, + this.high_ | other.high_); + }; + + + /** + * Returns the bitwise-XOR of this Long and the given one. + * @param {goog.math.Long} other The Long with which to XOR. + * @return {!goog.math.Long} The bitwise-XOR of this and the other. + */ + goog.math.Long.prototype.xor = function(other) { + return goog.math.Long.fromBits(this.low_ ^ other.low_, + this.high_ ^ other.high_); + }; + + + /** + * Returns this Long with bits shifted to the left by the given amount. + * @param {number} numBits The number of bits by which to shift. + * @return {!goog.math.Long} This shifted to the left by the given amount. + */ + goog.math.Long.prototype.shiftLeft = function(numBits) { + numBits &= 63; + if (numBits == 0) { + return this; + } else { + var low = this.low_; + if (numBits < 32) { + var high = this.high_; + return goog.math.Long.fromBits( + low << numBits, + (high << numBits) | (low >>> (32 - numBits))); + } else { + return goog.math.Long.fromBits(0, low << (numBits - 32)); + } + } + }; + + + /** + * Returns this Long with bits shifted to the right by the given amount. + * @param {number} numBits The number of bits by which to shift. + * @return {!goog.math.Long} This shifted to the right by the given amount. + */ + goog.math.Long.prototype.shiftRight = function(numBits) { + numBits &= 63; + if (numBits == 0) { + return this; + } else { + var high = this.high_; + if (numBits < 32) { + var low = this.low_; + return goog.math.Long.fromBits( + (low >>> numBits) | (high << (32 - numBits)), + high >> numBits); + } else { + return goog.math.Long.fromBits( + high >> (numBits - 32), + high >= 0 ? 0 : -1); + } + } + }; + + + /** + * Returns this Long with bits shifted to the right by the given amount, with + * the new top bits matching the current sign bit. + * @param {number} numBits The number of bits by which to shift. + * @return {!goog.math.Long} This shifted to the right by the given amount, with + * zeros placed into the new leading bits. + */ + goog.math.Long.prototype.shiftRightUnsigned = function(numBits) { + numBits &= 63; + if (numBits == 0) { + return this; + } else { + var high = this.high_; + if (numBits < 32) { + var low = this.low_; + return goog.math.Long.fromBits( + (low >>> numBits) | (high << (32 - numBits)), + high >>> numBits); + } else if (numBits == 32) { + return goog.math.Long.fromBits(high, 0); + } else { + return goog.math.Long.fromBits(high >>> (numBits - 32), 0); + } + } + }; + + //======= begin jsbn ======= + + var navigator = { appName: 'Modern Browser' }; // polyfill a little + + // Copyright (c) 2005 Tom Wu + // All Rights Reserved. + // http://www-cs-students.stanford.edu/~tjw/jsbn/ + + /* + * Copyright (c) 2003-2005 Tom Wu + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sublicense, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * The above copyright notice and this permission notice shall be + * included in all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF ANY KIND, + * EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY + * WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. + * + * IN NO EVENT SHALL TOM WU BE LIABLE FOR ANY SPECIAL, INCIDENTAL, + * INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY KIND, OR ANY DAMAGES WHATSOEVER + * RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER OR NOT ADVISED OF + * THE POSSIBILITY OF DAMAGE, AND ON ANY THEORY OF LIABILITY, ARISING OUT + * OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. + * + * In addition, the following condition applies: + * + * All redistributions must retain an intact copy of this copyright notice + * and disclaimer. + */ + + // Basic JavaScript BN library - subset useful for RSA encryption. + + // Bits per digit + var dbits; + + // JavaScript engine analysis + var canary = 0xdeadbeefcafe; + var j_lm = ((canary&0xffffff)==0xefcafe); + + // (public) Constructor + function BigInteger(a,b,c) { + if(a != null) + if("number" == typeof a) this.fromNumber(a,b,c); + else if(b == null && "string" != typeof a) this.fromString(a,256); + else this.fromString(a,b); + } + + // return new, unset BigInteger + function nbi() { return new BigInteger(null); } + + // am: Compute w_j += (x*this_i), propagate carries, + // c is initial carry, returns final carry. + // c < 3*dvalue, x < 2*dvalue, this_i < dvalue + // We need to select the fastest one that works in this environment. + + // am1: use a single mult and divide to get the high bits, + // max digit bits should be 26 because + // max internal value = 2*dvalue^2-2*dvalue (< 2^53) + function am1(i,x,w,j,c,n) { + while(--n >= 0) { + var v = x*this[i++]+w[j]+c; + c = Math.floor(v/0x4000000); + w[j++] = v&0x3ffffff; + } + return c; + } + // am2 avoids a big mult-and-extract completely. + // Max digit bits should be <= 30 because we do bitwise ops + // on values up to 2*hdvalue^2-hdvalue-1 (< 2^31) + function am2(i,x,w,j,c,n) { + var xl = x&0x7fff, xh = x>>15; + while(--n >= 0) { + var l = this[i]&0x7fff; + var h = this[i++]>>15; + var m = xh*l+h*xl; + l = xl*l+((m&0x7fff)<<15)+w[j]+(c&0x3fffffff); + c = (l>>>30)+(m>>>15)+xh*h+(c>>>30); + w[j++] = l&0x3fffffff; + } + return c; + } + // Alternately, set max digit bits to 28 since some + // browsers slow down when dealing with 32-bit numbers. + function am3(i,x,w,j,c,n) { + var xl = x&0x3fff, xh = x>>14; + while(--n >= 0) { + var l = this[i]&0x3fff; + var h = this[i++]>>14; + var m = xh*l+h*xl; + l = xl*l+((m&0x3fff)<<14)+w[j]+c; + c = (l>>28)+(m>>14)+xh*h; + w[j++] = l&0xfffffff; + } + return c; + } + if(j_lm && (navigator.appName == "Microsoft Internet Explorer")) { + BigInteger.prototype.am = am2; + dbits = 30; + } + else if(j_lm && (navigator.appName != "Netscape")) { + BigInteger.prototype.am = am1; + dbits = 26; + } + else { // Mozilla/Netscape seems to prefer am3 + BigInteger.prototype.am = am3; + dbits = 28; + } + + BigInteger.prototype.DB = dbits; + BigInteger.prototype.DM = ((1<= 0; --i) r[i] = this[i]; + r.t = this.t; + r.s = this.s; + } + + // (protected) set from integer value x, -DV <= x < DV + function bnpFromInt(x) { + this.t = 1; + this.s = (x<0)?-1:0; + if(x > 0) this[0] = x; + else if(x < -1) this[0] = x+DV; + else this.t = 0; + } + + // return bigint initialized to value + function nbv(i) { var r = nbi(); r.fromInt(i); return r; } + + // (protected) set from string and radix + function bnpFromString(s,b) { + var k; + if(b == 16) k = 4; + else if(b == 8) k = 3; + else if(b == 256) k = 8; // byte array + else if(b == 2) k = 1; + else if(b == 32) k = 5; + else if(b == 4) k = 2; + else { this.fromRadix(s,b); return; } + this.t = 0; + this.s = 0; + var i = s.length, mi = false, sh = 0; + while(--i >= 0) { + var x = (k==8)?s[i]&0xff:intAt(s,i); + if(x < 0) { + if(s.charAt(i) == "-") mi = true; + continue; + } + mi = false; + if(sh == 0) + this[this.t++] = x; + else if(sh+k > this.DB) { + this[this.t-1] |= (x&((1<<(this.DB-sh))-1))<>(this.DB-sh)); + } + else + this[this.t-1] |= x<= this.DB) sh -= this.DB; + } + if(k == 8 && (s[0]&0x80) != 0) { + this.s = -1; + if(sh > 0) this[this.t-1] |= ((1<<(this.DB-sh))-1)< 0 && this[this.t-1] == c) --this.t; + } + + // (public) return string representation in given radix + function bnToString(b) { + if(this.s < 0) return "-"+this.negate().toString(b); + var k; + if(b == 16) k = 4; + else if(b == 8) k = 3; + else if(b == 2) k = 1; + else if(b == 32) k = 5; + else if(b == 4) k = 2; + else return this.toRadix(b); + var km = (1< 0) { + if(p < this.DB && (d = this[i]>>p) > 0) { m = true; r = int2char(d); } + while(i >= 0) { + if(p < k) { + d = (this[i]&((1<>(p+=this.DB-k); + } + else { + d = (this[i]>>(p-=k))&km; + if(p <= 0) { p += this.DB; --i; } + } + if(d > 0) m = true; + if(m) r += int2char(d); + } + } + return m?r:"0"; + } + + // (public) -this + function bnNegate() { var r = nbi(); BigInteger.ZERO.subTo(this,r); return r; } + + // (public) |this| + function bnAbs() { return (this.s<0)?this.negate():this; } + + // (public) return + if this > a, - if this < a, 0 if equal + function bnCompareTo(a) { + var r = this.s-a.s; + if(r != 0) return r; + var i = this.t; + r = i-a.t; + if(r != 0) return (this.s<0)?-r:r; + while(--i >= 0) if((r=this[i]-a[i]) != 0) return r; + return 0; + } + + // returns bit length of the integer x + function nbits(x) { + var r = 1, t; + if((t=x>>>16) != 0) { x = t; r += 16; } + if((t=x>>8) != 0) { x = t; r += 8; } + if((t=x>>4) != 0) { x = t; r += 4; } + if((t=x>>2) != 0) { x = t; r += 2; } + if((t=x>>1) != 0) { x = t; r += 1; } + return r; + } + + // (public) return the number of bits in "this" + function bnBitLength() { + if(this.t <= 0) return 0; + return this.DB*(this.t-1)+nbits(this[this.t-1]^(this.s&this.DM)); + } + + // (protected) r = this << n*DB + function bnpDLShiftTo(n,r) { + var i; + for(i = this.t-1; i >= 0; --i) r[i+n] = this[i]; + for(i = n-1; i >= 0; --i) r[i] = 0; + r.t = this.t+n; + r.s = this.s; + } + + // (protected) r = this >> n*DB + function bnpDRShiftTo(n,r) { + for(var i = n; i < this.t; ++i) r[i-n] = this[i]; + r.t = Math.max(this.t-n,0); + r.s = this.s; + } + + // (protected) r = this << n + function bnpLShiftTo(n,r) { + var bs = n%this.DB; + var cbs = this.DB-bs; + var bm = (1<= 0; --i) { + r[i+ds+1] = (this[i]>>cbs)|c; + c = (this[i]&bm)<= 0; --i) r[i] = 0; + r[ds] = c; + r.t = this.t+ds+1; + r.s = this.s; + r.clamp(); + } + + // (protected) r = this >> n + function bnpRShiftTo(n,r) { + r.s = this.s; + var ds = Math.floor(n/this.DB); + if(ds >= this.t) { r.t = 0; return; } + var bs = n%this.DB; + var cbs = this.DB-bs; + var bm = (1<>bs; + for(var i = ds+1; i < this.t; ++i) { + r[i-ds-1] |= (this[i]&bm)<>bs; + } + if(bs > 0) r[this.t-ds-1] |= (this.s&bm)<>= this.DB; + } + if(a.t < this.t) { + c -= a.s; + while(i < this.t) { + c += this[i]; + r[i++] = c&this.DM; + c >>= this.DB; + } + c += this.s; + } + else { + c += this.s; + while(i < a.t) { + c -= a[i]; + r[i++] = c&this.DM; + c >>= this.DB; + } + c -= a.s; + } + r.s = (c<0)?-1:0; + if(c < -1) r[i++] = this.DV+c; + else if(c > 0) r[i++] = c; + r.t = i; + r.clamp(); + } + + // (protected) r = this * a, r != this,a (HAC 14.12) + // "this" should be the larger one if appropriate. + function bnpMultiplyTo(a,r) { + var x = this.abs(), y = a.abs(); + var i = x.t; + r.t = i+y.t; + while(--i >= 0) r[i] = 0; + for(i = 0; i < y.t; ++i) r[i+x.t] = x.am(0,y[i],r,i,0,x.t); + r.s = 0; + r.clamp(); + if(this.s != a.s) BigInteger.ZERO.subTo(r,r); + } + + // (protected) r = this^2, r != this (HAC 14.16) + function bnpSquareTo(r) { + var x = this.abs(); + var i = r.t = 2*x.t; + while(--i >= 0) r[i] = 0; + for(i = 0; i < x.t-1; ++i) { + var c = x.am(i,x[i],r,2*i,0,1); + if((r[i+x.t]+=x.am(i+1,2*x[i],r,2*i+1,c,x.t-i-1)) >= x.DV) { + r[i+x.t] -= x.DV; + r[i+x.t+1] = 1; + } + } + if(r.t > 0) r[r.t-1] += x.am(i,x[i],r,2*i,0,1); + r.s = 0; + r.clamp(); + } + + // (protected) divide this by m, quotient and remainder to q, r (HAC 14.20) + // r != q, this != m. q or r may be null. + function bnpDivRemTo(m,q,r) { + var pm = m.abs(); + if(pm.t <= 0) return; + var pt = this.abs(); + if(pt.t < pm.t) { + if(q != null) q.fromInt(0); + if(r != null) this.copyTo(r); + return; + } + if(r == null) r = nbi(); + var y = nbi(), ts = this.s, ms = m.s; + var nsh = this.DB-nbits(pm[pm.t-1]); // normalize modulus + if(nsh > 0) { pm.lShiftTo(nsh,y); pt.lShiftTo(nsh,r); } + else { pm.copyTo(y); pt.copyTo(r); } + var ys = y.t; + var y0 = y[ys-1]; + if(y0 == 0) return; + var yt = y0*(1<1)?y[ys-2]>>this.F2:0); + var d1 = this.FV/yt, d2 = (1<= 0) { + r[r.t++] = 1; + r.subTo(t,r); + } + BigInteger.ONE.dlShiftTo(ys,t); + t.subTo(y,y); // "negative" y so we can replace sub with am later + while(y.t < ys) y[y.t++] = 0; + while(--j >= 0) { + // Estimate quotient digit + var qd = (r[--i]==y0)?this.DM:Math.floor(r[i]*d1+(r[i-1]+e)*d2); + if((r[i]+=y.am(0,qd,r,j,0,ys)) < qd) { // Try it out + y.dlShiftTo(j,t); + r.subTo(t,r); + while(r[i] < --qd) r.subTo(t,r); + } + } + if(q != null) { + r.drShiftTo(ys,q); + if(ts != ms) BigInteger.ZERO.subTo(q,q); + } + r.t = ys; + r.clamp(); + if(nsh > 0) r.rShiftTo(nsh,r); // Denormalize remainder + if(ts < 0) BigInteger.ZERO.subTo(r,r); + } + + // (public) this mod a + function bnMod(a) { + var r = nbi(); + this.abs().divRemTo(a,null,r); + if(this.s < 0 && r.compareTo(BigInteger.ZERO) > 0) a.subTo(r,r); + return r; + } + + // Modular reduction using "classic" algorithm + function Classic(m) { this.m = m; } + function cConvert(x) { + if(x.s < 0 || x.compareTo(this.m) >= 0) return x.mod(this.m); + else return x; + } + function cRevert(x) { return x; } + function cReduce(x) { x.divRemTo(this.m,null,x); } + function cMulTo(x,y,r) { x.multiplyTo(y,r); this.reduce(r); } + function cSqrTo(x,r) { x.squareTo(r); this.reduce(r); } + + Classic.prototype.convert = cConvert; + Classic.prototype.revert = cRevert; + Classic.prototype.reduce = cReduce; + Classic.prototype.mulTo = cMulTo; + Classic.prototype.sqrTo = cSqrTo; + + // (protected) return "-1/this % 2^DB"; useful for Mont. reduction + // justification: + // xy == 1 (mod m) + // xy = 1+km + // xy(2-xy) = (1+km)(1-km) + // x[y(2-xy)] = 1-k^2m^2 + // x[y(2-xy)] == 1 (mod m^2) + // if y is 1/x mod m, then y(2-xy) is 1/x mod m^2 + // should reduce x and y(2-xy) by m^2 at each step to keep size bounded. + // JS multiply "overflows" differently from C/C++, so care is needed here. + function bnpInvDigit() { + if(this.t < 1) return 0; + var x = this[0]; + if((x&1) == 0) return 0; + var y = x&3; // y == 1/x mod 2^2 + y = (y*(2-(x&0xf)*y))&0xf; // y == 1/x mod 2^4 + y = (y*(2-(x&0xff)*y))&0xff; // y == 1/x mod 2^8 + y = (y*(2-(((x&0xffff)*y)&0xffff)))&0xffff; // y == 1/x mod 2^16 + // last step - calculate inverse mod DV directly; + // assumes 16 < DB <= 32 and assumes ability to handle 48-bit ints + y = (y*(2-x*y%this.DV))%this.DV; // y == 1/x mod 2^dbits + // we really want the negative inverse, and -DV < y < DV + return (y>0)?this.DV-y:-y; + } + + // Montgomery reduction + function Montgomery(m) { + this.m = m; + this.mp = m.invDigit(); + this.mpl = this.mp&0x7fff; + this.mph = this.mp>>15; + this.um = (1<<(m.DB-15))-1; + this.mt2 = 2*m.t; + } + + // xR mod m + function montConvert(x) { + var r = nbi(); + x.abs().dlShiftTo(this.m.t,r); + r.divRemTo(this.m,null,r); + if(x.s < 0 && r.compareTo(BigInteger.ZERO) > 0) this.m.subTo(r,r); + return r; + } + + // x/R mod m + function montRevert(x) { + var r = nbi(); + x.copyTo(r); + this.reduce(r); + return r; + } + + // x = x/R mod m (HAC 14.32) + function montReduce(x) { + while(x.t <= this.mt2) // pad x so am has enough room later + x[x.t++] = 0; + for(var i = 0; i < this.m.t; ++i) { + // faster way of calculating u0 = x[i]*mp mod DV + var j = x[i]&0x7fff; + var u0 = (j*this.mpl+(((j*this.mph+(x[i]>>15)*this.mpl)&this.um)<<15))&x.DM; + // use am to combine the multiply-shift-add into one call + j = i+this.m.t; + x[j] += this.m.am(0,u0,x,i,0,this.m.t); + // propagate carry + while(x[j] >= x.DV) { x[j] -= x.DV; x[++j]++; } + } + x.clamp(); + x.drShiftTo(this.m.t,x); + if(x.compareTo(this.m) >= 0) x.subTo(this.m,x); + } + + // r = "x^2/R mod m"; x != r + function montSqrTo(x,r) { x.squareTo(r); this.reduce(r); } + + // r = "xy/R mod m"; x,y != r + function montMulTo(x,y,r) { x.multiplyTo(y,r); this.reduce(r); } + + Montgomery.prototype.convert = montConvert; + Montgomery.prototype.revert = montRevert; + Montgomery.prototype.reduce = montReduce; + Montgomery.prototype.mulTo = montMulTo; + Montgomery.prototype.sqrTo = montSqrTo; + + // (protected) true iff this is even + function bnpIsEven() { return ((this.t>0)?(this[0]&1):this.s) == 0; } + + // (protected) this^e, e < 2^32, doing sqr and mul with "r" (HAC 14.79) + function bnpExp(e,z) { + if(e > 0xffffffff || e < 1) return BigInteger.ONE; + var r = nbi(), r2 = nbi(), g = z.convert(this), i = nbits(e)-1; + g.copyTo(r); + while(--i >= 0) { + z.sqrTo(r,r2); + if((e&(1< 0) z.mulTo(r2,g,r); + else { var t = r; r = r2; r2 = t; } + } + return z.revert(r); + } + + // (public) this^e % m, 0 <= e < 2^32 + function bnModPowInt(e,m) { + var z; + if(e < 256 || m.isEven()) z = new Classic(m); else z = new Montgomery(m); + return this.exp(e,z); + } + + // protected + BigInteger.prototype.copyTo = bnpCopyTo; + BigInteger.prototype.fromInt = bnpFromInt; + BigInteger.prototype.fromString = bnpFromString; + BigInteger.prototype.clamp = bnpClamp; + BigInteger.prototype.dlShiftTo = bnpDLShiftTo; + BigInteger.prototype.drShiftTo = bnpDRShiftTo; + BigInteger.prototype.lShiftTo = bnpLShiftTo; + BigInteger.prototype.rShiftTo = bnpRShiftTo; + BigInteger.prototype.subTo = bnpSubTo; + BigInteger.prototype.multiplyTo = bnpMultiplyTo; + BigInteger.prototype.squareTo = bnpSquareTo; + BigInteger.prototype.divRemTo = bnpDivRemTo; + BigInteger.prototype.invDigit = bnpInvDigit; + BigInteger.prototype.isEven = bnpIsEven; + BigInteger.prototype.exp = bnpExp; + + // public + BigInteger.prototype.toString = bnToString; + BigInteger.prototype.negate = bnNegate; + BigInteger.prototype.abs = bnAbs; + BigInteger.prototype.compareTo = bnCompareTo; + BigInteger.prototype.bitLength = bnBitLength; + BigInteger.prototype.mod = bnMod; + BigInteger.prototype.modPowInt = bnModPowInt; + + // "constants" + BigInteger.ZERO = nbv(0); + BigInteger.ONE = nbv(1); + + // jsbn2 stuff + + // (protected) convert from radix string + function bnpFromRadix(s,b) { + this.fromInt(0); + if(b == null) b = 10; + var cs = this.chunkSize(b); + var d = Math.pow(b,cs), mi = false, j = 0, w = 0; + for(var i = 0; i < s.length; ++i) { + var x = intAt(s,i); + if(x < 0) { + if(s.charAt(i) == "-" && this.signum() == 0) mi = true; + continue; + } + w = b*w+x; + if(++j >= cs) { + this.dMultiply(d); + this.dAddOffset(w,0); + j = 0; + w = 0; + } + } + if(j > 0) { + this.dMultiply(Math.pow(b,j)); + this.dAddOffset(w,0); + } + if(mi) BigInteger.ZERO.subTo(this,this); + } + + // (protected) return x s.t. r^x < DV + function bnpChunkSize(r) { return Math.floor(Math.LN2*this.DB/Math.log(r)); } + + // (public) 0 if this == 0, 1 if this > 0 + function bnSigNum() { + if(this.s < 0) return -1; + else if(this.t <= 0 || (this.t == 1 && this[0] <= 0)) return 0; + else return 1; + } + + // (protected) this *= n, this >= 0, 1 < n < DV + function bnpDMultiply(n) { + this[this.t] = this.am(0,n-1,this,0,0,this.t); + ++this.t; + this.clamp(); + } + + // (protected) this += n << w words, this >= 0 + function bnpDAddOffset(n,w) { + if(n == 0) return; + while(this.t <= w) this[this.t++] = 0; + this[w] += n; + while(this[w] >= this.DV) { + this[w] -= this.DV; + if(++w >= this.t) this[this.t++] = 0; + ++this[w]; + } + } + + // (protected) convert to radix string + function bnpToRadix(b) { + if(b == null) b = 10; + if(this.signum() == 0 || b < 2 || b > 36) return "0"; + var cs = this.chunkSize(b); + var a = Math.pow(b,cs); + var d = nbv(a), y = nbi(), z = nbi(), r = ""; + this.divRemTo(d,y,z); + while(y.signum() > 0) { + r = (a+z.intValue()).toString(b).substr(1) + r; + y.divRemTo(d,y,z); + } + return z.intValue().toString(b) + r; + } + + // (public) return value as integer + function bnIntValue() { + if(this.s < 0) { + if(this.t == 1) return this[0]-this.DV; + else if(this.t == 0) return -1; + } + else if(this.t == 1) return this[0]; + else if(this.t == 0) return 0; + // assumes 16 < DB < 32 + return ((this[1]&((1<<(32-this.DB))-1))<>= this.DB; + } + if(a.t < this.t) { + c += a.s; + while(i < this.t) { + c += this[i]; + r[i++] = c&this.DM; + c >>= this.DB; + } + c += this.s; + } + else { + c += this.s; + while(i < a.t) { + c += a[i]; + r[i++] = c&this.DM; + c >>= this.DB; + } + c += a.s; + } + r.s = (c<0)?-1:0; + if(c > 0) r[i++] = c; + else if(c < -1) r[i++] = this.DV+c; + r.t = i; + r.clamp(); + } + + BigInteger.prototype.fromRadix = bnpFromRadix; + BigInteger.prototype.chunkSize = bnpChunkSize; + BigInteger.prototype.signum = bnSigNum; + BigInteger.prototype.dMultiply = bnpDMultiply; + BigInteger.prototype.dAddOffset = bnpDAddOffset; + BigInteger.prototype.toRadix = bnpToRadix; + BigInteger.prototype.intValue = bnIntValue; + BigInteger.prototype.addTo = bnpAddTo; + + //======= end jsbn ======= + + // Emscripten wrapper + var Wrapper = { + abs: function(l, h) { + var x = new goog.math.Long(l, h); + var ret; + if (x.isNegative()) { + ret = x.negate(); + } else { + ret = x; + } + HEAP32[tempDoublePtr>>2] = ret.low_; + HEAP32[tempDoublePtr+4>>2] = ret.high_; + }, + ensureTemps: function() { + if (Wrapper.ensuredTemps) return; + Wrapper.ensuredTemps = true; + Wrapper.two32 = new BigInteger(); + Wrapper.two32.fromString('4294967296', 10); + Wrapper.two64 = new BigInteger(); + Wrapper.two64.fromString('18446744073709551616', 10); + Wrapper.temp1 = new BigInteger(); + Wrapper.temp2 = new BigInteger(); + }, + lh2bignum: function(l, h) { + var a = new BigInteger(); + a.fromString(h.toString(), 10); + var b = new BigInteger(); + a.multiplyTo(Wrapper.two32, b); + var c = new BigInteger(); + c.fromString(l.toString(), 10); + var d = new BigInteger(); + c.addTo(b, d); + return d; + }, + stringify: function(l, h, unsigned) { + var ret = new goog.math.Long(l, h).toString(); + if (unsigned && ret[0] == '-') { + // unsign slowly using jsbn bignums + Wrapper.ensureTemps(); + var bignum = new BigInteger(); + bignum.fromString(ret, 10); + ret = new BigInteger(); + Wrapper.two64.addTo(bignum, ret); + ret = ret.toString(10); + } + return ret; + }, + fromString: function(str, base, min, max, unsigned) { + Wrapper.ensureTemps(); + var bignum = new BigInteger(); + bignum.fromString(str, base); + var bigmin = new BigInteger(); + bigmin.fromString(min, 10); + var bigmax = new BigInteger(); + bigmax.fromString(max, 10); + if (unsigned && bignum.compareTo(BigInteger.ZERO) < 0) { + var temp = new BigInteger(); + bignum.addTo(Wrapper.two64, temp); + bignum = temp; + } + var error = false; + if (bignum.compareTo(bigmin) < 0) { + bignum = bigmin; + error = true; + } else if (bignum.compareTo(bigmax) > 0) { + bignum = bigmax; + error = true; + } + var ret = goog.math.Long.fromString(bignum.toString()); // min-max checks should have clamped this to a range goog.math.Long can handle well + HEAP32[tempDoublePtr>>2] = ret.low_; + HEAP32[tempDoublePtr+4>>2] = ret.high_; + if (error) throw 'range error'; + } + }; + return Wrapper; +})(); + +//======= end closure i64 code ======= + + + +// === Auto-generated postamble setup entry stuff === + +if (memoryInitializer) { + if (typeof Module['locateFile'] === 'function') { + memoryInitializer = Module['locateFile'](memoryInitializer); + } else if (Module['memoryInitializerPrefixURL']) { + memoryInitializer = Module['memoryInitializerPrefixURL'] + memoryInitializer; + } + if (ENVIRONMENT_IS_NODE || ENVIRONMENT_IS_SHELL) { + var data = Module['readBinary'](memoryInitializer); + HEAPU8.set(data, STATIC_BASE); + } else { + addRunDependency('memory initializer'); + Browser.asyncLoad(memoryInitializer, function(data) { + HEAPU8.set(data, STATIC_BASE); + removeRunDependency('memory initializer'); + }, function(data) { + throw 'could not load memory initializer ' + memoryInitializer; + }); + } +} + +function ExitStatus(status) { + this.name = "ExitStatus"; + this.message = "Program terminated with exit(" + status + ")"; + this.status = status; +}; +ExitStatus.prototype = new Error(); +ExitStatus.prototype.constructor = ExitStatus; + +var initialStackTop; +var preloadStartTime = null; +var calledMain = false; + +dependenciesFulfilled = function runCaller() { + // If run has never been called, and we should call run (INVOKE_RUN is true, and Module.noInitialRun is not false) + if (!Module['calledRun'] && shouldRunNow) run(); + if (!Module['calledRun']) dependenciesFulfilled = runCaller; // try this again later, after new deps are fulfilled +} + +Module['callMain'] = Module.callMain = function callMain(args) { + assert(runDependencies == 0, 'cannot call main when async dependencies remain! (listen on __ATMAIN__)'); + assert(__ATPRERUN__.length == 0, 'cannot call main when preRun functions remain to be called'); + + args = args || []; + + ensureInitRuntime(); + + var argc = args.length+1; + function pad() { + for (var i = 0; i < 4-1; i++) { + argv.push(0); + } + } + var argv = [allocate(intArrayFromString(Module['thisProgram']), 'i8', ALLOC_NORMAL) ]; + pad(); + for (var i = 0; i < argc-1; i = i + 1) { + argv.push(allocate(intArrayFromString(args[i]), 'i8', ALLOC_NORMAL)); + pad(); + } + argv.push(0); + argv = allocate(argv, 'i32', ALLOC_NORMAL); + + initialStackTop = STACKTOP; + + try { + + var ret = Module['_main'](argc, argv, 0); + + + // if we're not running an evented main loop, it's time to exit + exit(ret); + } + catch(e) { + if (e instanceof ExitStatus) { + // exit() throws this once it's done to make sure execution + // has been stopped completely + return; + } else if (e == 'SimulateInfiniteLoop') { + // running an evented main loop, don't immediately exit + Module['noExitRuntime'] = true; + return; + } else { + if (e && typeof e === 'object' && e.stack) Module.printErr('exception thrown: ' + [e, e.stack]); + throw e; + } + } finally { + calledMain = true; + } +} + + + + +function run(args) { + args = args || Module['arguments']; + + if (preloadStartTime === null) preloadStartTime = Date.now(); + + if (runDependencies > 0) { + return; + } + + preRun(); + + if (runDependencies > 0) return; // a preRun added a dependency, run will be called later + if (Module['calledRun']) return; // run may have just been called through dependencies being fulfilled just in this very frame + + function doRun() { + if (Module['calledRun']) return; // run may have just been called while the async setStatus time below was happening + Module['calledRun'] = true; + + if (ABORT) return; + + ensureInitRuntime(); + + preMain(); + + if (ENVIRONMENT_IS_WEB && preloadStartTime !== null) { + Module.printErr('pre-main prep time: ' + (Date.now() - preloadStartTime) + ' ms'); + } + + if (Module['onRuntimeInitialized']) Module['onRuntimeInitialized'](); + + if (Module['_main'] && shouldRunNow) Module['callMain'](args); + + postRun(); + } + + if (Module['setStatus']) { + Module['setStatus']('Running...'); + setTimeout(function() { + setTimeout(function() { + Module['setStatus'](''); + }, 1); + doRun(); + }, 1); + } else { + doRun(); + } +} +Module['run'] = Module.run = run; + +function exit(status) { + if (Module['noExitRuntime']) { + return; + } + + ABORT = true; + EXITSTATUS = status; + STACKTOP = initialStackTop; + + // exit the runtime + exitRuntime(); + + if (ENVIRONMENT_IS_NODE) { + // Work around a node.js bug where stdout buffer is not flushed at process exit: + // Instead of process.exit() directly, wait for stdout flush event. + // See https://github.com/joyent/node/issues/1669 and https://github.com/kripken/emscripten/issues/2582 + // Workaround is based on https://github.com/RReverser/acorn/commit/50ab143cecc9ed71a2d66f78b4aec3bb2e9844f6 + process['stdout']['once']('drain', function () { + process['exit'](status); + }); + console.log(' '); // Make sure to print something to force the drain event to occur, in case the stdout buffer was empty. + // Work around another node bug where sometimes 'drain' is never fired - make another effort + // to emit the exit status, after a significant delay (if node hasn't fired drain by then, give up) + setTimeout(function() { + process['exit'](status); + }, 500); + } else + if (ENVIRONMENT_IS_SHELL && typeof quit === 'function') { + quit(status); + } + // if we reach here, we must throw an exception to halt the current execution + throw new ExitStatus(status); +} +Module['exit'] = Module.exit = exit; + +function abort(text) { + if (text) { + Module.print(text); + Module.printErr(text); + } + + ABORT = true; + EXITSTATUS = 1; + + var extra = '\nIf this abort() is unexpected, build with -s ASSERTIONS=1 which can give more information.'; + + throw 'abort() at ' + stackTrace() + extra; +} +Module['abort'] = Module.abort = abort; + +// {{PRE_RUN_ADDITIONS}} + +if (Module['preInit']) { + if (typeof Module['preInit'] == 'function') Module['preInit'] = [Module['preInit']]; + while (Module['preInit'].length > 0) { + Module['preInit'].pop()(); + } +} + +// shouldRunNow refers to calling main(), not run(). +var shouldRunNow = true; +if (Module['noInitialRun']) { + shouldRunNow = false; +} + + +run(); + +// {{POST_RUN_ADDITIONS}} + + + + + + +// {{MODULE_ADDITIONS}} + + + + +/* vim: ts=4:sw=4:expandtab */ +var Internal = Internal || {}; + +(function() { + 'use strict'; + + // Insert some bytes into the emscripten memory and return a pointer + function _allocate(bytes) { + var address = Module._malloc(bytes.length); + Module.HEAPU8.set(bytes, address); + + return address; + } + + function _readBytes(address, length, array) { + array.set(Module.HEAPU8.subarray(address, address + length)); + } + + var basepoint = new Uint8Array(32); + basepoint[0] = 9; + + Internal.curve25519 = { + keyPair: function(privKey) { + var priv = new Uint8Array(privKey); + priv[0] &= 248; + priv[31] &= 127; + priv[31] |= 64; + + // Where to store the result + var publicKey_ptr = Module._malloc(32); + + // Get a pointer to the private key + var privateKey_ptr = _allocate(priv); + + // The basepoint for generating public keys + var basepoint_ptr = _allocate(basepoint); + + // The return value is just 0, the operation is done in place + var err = Module._curve25519_donna(publicKey_ptr, + privateKey_ptr, + basepoint_ptr); + + var res = new Uint8Array(32); + _readBytes(publicKey_ptr, 32, res); + + Module._free(publicKey_ptr); + Module._free(privateKey_ptr); + Module._free(basepoint_ptr); + + return { pubKey: res.buffer, privKey: priv.buffer }; + }, + sharedSecret: function(pubKey, privKey) { + // Where to store the result + var sharedKey_ptr = Module._malloc(32); + + // Get a pointer to our private key + var privateKey_ptr = _allocate(new Uint8Array(privKey)); + + // Get a pointer to their public key, the basepoint when you're + // generating a shared secret + var basepoint_ptr = _allocate(new Uint8Array(pubKey)); + + // Return value is 0 here too of course + var err = Module._curve25519_donna(sharedKey_ptr, + privateKey_ptr, + basepoint_ptr); + + var res = new Uint8Array(32); + _readBytes(sharedKey_ptr, 32, res); + + Module._free(sharedKey_ptr); + Module._free(privateKey_ptr); + Module._free(basepoint_ptr); + + return res.buffer; + }, + sign: function(privKey, message) { + // Where to store the result + var signature_ptr = Module._malloc(64); + + // Get a pointer to our private key + var privateKey_ptr = _allocate(new Uint8Array(privKey)); + + // Get a pointer to the message + var message_ptr = _allocate(new Uint8Array(message)); + + var err = Module._curve25519_sign(signature_ptr, + privateKey_ptr, + message_ptr, + message.byteLength); + + var res = new Uint8Array(64); + _readBytes(signature_ptr, 64, res); + + Module._free(signature_ptr); + Module._free(privateKey_ptr); + Module._free(message_ptr); + + return res.buffer; + }, + verify: function(pubKey, message, sig) { + // Get a pointer to their public key + var publicKey_ptr = _allocate(new Uint8Array(pubKey)); + + // Get a pointer to the signature + var signature_ptr = _allocate(new Uint8Array(sig)); + + // Get a pointer to the message + var message_ptr = _allocate(new Uint8Array(message)); + + var res = Module._curve25519_verify(signature_ptr, + publicKey_ptr, + message_ptr, + message.byteLength); + + Module._free(publicKey_ptr); + Module._free(signature_ptr); + Module._free(message_ptr); + + return res !== 0; + } + }; + + Internal.curve25519_async = { + keyPair: function(privKey) { + return new Promise(function(resolve) { + resolve(Internal.curve25519.keyPair(privKey)); + }); + }, + sharedSecret: function(pubKey, privKey) { + return new Promise(function(resolve) { + resolve(Internal.curve25519.sharedSecret(pubKey, privKey)); + }); + }, + sign: function(privKey, message) { + return new Promise(function(resolve) { + resolve(Internal.curve25519.sign(privKey, message)); + }); + }, + verify: function(pubKey, message, sig) { + return new Promise(function(resolve, reject) { + if (Internal.curve25519.verify(pubKey, message, sig)) { + reject(new Error("Invalid signature")); + } else { + resolve(); + } + }); + }, + }; + +})(); + +;(function() { + +'use strict'; + +// I am the...workee? +var origCurve25519 = Internal.curve25519_async; + +Internal.startWorker = function(url) { + Internal.stopWorker(); // there can be only one + Internal.curve25519_async = new Curve25519Worker(url); +}; + +Internal.stopWorker = function() { + if (Internal.curve25519_async instanceof Curve25519Worker) { + var worker = Internal.curve25519_async.worker; + Internal.curve25519_async = origCurve25519; + worker.terminate(); + } +}; + +libsignal.worker = { + startWorker: Internal.startWorker, + stopWorker: Internal.stopWorker, +}; + +function Curve25519Worker(url) { + this.jobs = {}; + this.jobId = 0; + this.worker = new Worker(url); + this.worker.onmessage = function(e) { + var job = this.jobs[e.data.id]; + if (e.data.error && typeof job.onerror === 'function') { + job.onerror(new Error(e.data.error)); + } else if (typeof job.onsuccess === 'function') { + job.onsuccess(e.data.result); + } + delete this.jobs[e.data.id]; + }.bind(this); +} + +Curve25519Worker.prototype = { + constructor: Curve25519Worker, + postMessage: function(methodName, args, onsuccess, onerror) { + return new Promise(function(resolve, reject) { + this.jobs[this.jobId] = { onsuccess: resolve, onerror: reject }; + this.worker.postMessage({ id: this.jobId, methodName: methodName, args: args }); + this.jobId++; + }.bind(this)); + }, + keyPair: function(privKey) { + return this.postMessage('keyPair', [privKey]); + }, + sharedSecret: function(pubKey, privKey) { + return this.postMessage('sharedSecret', [pubKey, privKey]); + }, + sign: function(privKey, message) { + return this.postMessage('sign', [privKey, message]); + }, + verify: function(pubKey, message, sig) { + return this.postMessage('verify', [pubKey, message, sig]); + } +}; + +})(); + +/* + Copyright 2013 Daniel Wirtz + Copyright 2009 The Closure Library Authors. All Rights Reserved. + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS-IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. + */ + +/** + * @license long.js (c) 2013 Daniel Wirtz + * Released under the Apache License, Version 2.0 + * see: https://github.com/dcodeIO/long.js for details + */ +(function(global, factory) { + + /* AMD */ if (typeof define === 'function' && define["amd"]) + define([], factory); + /* CommonJS */ else if (typeof require === 'function' && typeof module === "object" && module && module["exports"]) + module["exports"] = factory(); + /* Global */ else + (global["dcodeIO"] = global["dcodeIO"] || {})["Long"] = factory(); + +})(this, function() { + "use strict"; + + /** + * Constructs a 64 bit two's-complement integer, given its low and high 32 bit values as *signed* integers. + * See the from* functions below for more convenient ways of constructing Longs. + * @exports Long + * @class A Long class for representing a 64 bit two's-complement integer value. + * @param {number} low The low (signed) 32 bits of the long + * @param {number} high The high (signed) 32 bits of the long + * @param {boolean=} unsigned Whether unsigned or not, defaults to `false` for signed + * @constructor + */ + function Long(low, high, unsigned) { + + /** + * The low 32 bits as a signed value. + * @type {number} + */ + this.low = low | 0; + + /** + * The high 32 bits as a signed value. + * @type {number} + */ + this.high = high | 0; + + /** + * Whether unsigned or not. + * @type {boolean} + */ + this.unsigned = !!unsigned; + } + + // The internal representation of a long is the two given signed, 32-bit values. + // We use 32-bit pieces because these are the size of integers on which + // Javascript performs bit-operations. For operations like addition and + // multiplication, we split each number into 16 bit pieces, which can easily be + // multiplied within Javascript's floating-point representation without overflow + // or change in sign. + // + // In the algorithms below, we frequently reduce the negative case to the + // positive case by negating the input(s) and then post-processing the result. + // Note that we must ALWAYS check specially whether those values are MIN_VALUE + // (-2^63) because -MIN_VALUE == MIN_VALUE (since 2^63 cannot be represented as + // a positive number, it overflows back into a negative). Not handling this + // case would often result in infinite recursion. + // + // Common constant values ZERO, ONE, NEG_ONE, etc. are defined below the from* + // methods on which they depend. + + /** + * An indicator used to reliably determine if an object is a Long or not. + * @type {boolean} + * @const + * @private + */ + Long.prototype.__isLong__; + + Object.defineProperty(Long.prototype, "__isLong__", { + value: true, + enumerable: false, + configurable: false + }); + + /** + * @function + * @param {*} obj Object + * @returns {boolean} + * @inner + */ + function isLong(obj) { + return (obj && obj["__isLong__"]) === true; + } + + /** + * Tests if the specified object is a Long. + * @function + * @param {*} obj Object + * @returns {boolean} + */ + Long.isLong = isLong; + + /** + * A cache of the Long representations of small integer values. + * @type {!Object} + * @inner + */ + var INT_CACHE = {}; + + /** + * A cache of the Long representations of small unsigned integer values. + * @type {!Object} + * @inner + */ + var UINT_CACHE = {}; + + /** + * @param {number} value + * @param {boolean=} unsigned + * @returns {!Long} + * @inner + */ + function fromInt(value, unsigned) { + var obj, cachedObj, cache; + if (unsigned) { + value >>>= 0; + if (cache = (0 <= value && value < 256)) { + cachedObj = UINT_CACHE[value]; + if (cachedObj) + return cachedObj; + } + obj = fromBits(value, (value | 0) < 0 ? -1 : 0, true); + if (cache) + UINT_CACHE[value] = obj; + return obj; + } else { + value |= 0; + if (cache = (-128 <= value && value < 128)) { + cachedObj = INT_CACHE[value]; + if (cachedObj) + return cachedObj; + } + obj = fromBits(value, value < 0 ? -1 : 0, false); + if (cache) + INT_CACHE[value] = obj; + return obj; + } + } + + /** + * Returns a Long representing the given 32 bit integer value. + * @function + * @param {number} value The 32 bit integer in question + * @param {boolean=} unsigned Whether unsigned or not, defaults to `false` for signed + * @returns {!Long} The corresponding Long value + */ + Long.fromInt = fromInt; + + /** + * @param {number} value + * @param {boolean=} unsigned + * @returns {!Long} + * @inner + */ + function fromNumber(value, unsigned) { + if (isNaN(value) || !isFinite(value)) + return unsigned ? UZERO : ZERO; + if (unsigned) { + if (value < 0) + return UZERO; + if (value >= TWO_PWR_64_DBL) + return MAX_UNSIGNED_VALUE; + } else { + if (value <= -TWO_PWR_63_DBL) + return MIN_VALUE; + if (value + 1 >= TWO_PWR_63_DBL) + return MAX_VALUE; + } + if (value < 0) + return fromNumber(-value, unsigned).neg(); + return fromBits((value % TWO_PWR_32_DBL) | 0, (value / TWO_PWR_32_DBL) | 0, unsigned); + } + + /** + * Returns a Long representing the given value, provided that it is a finite number. Otherwise, zero is returned. + * @function + * @param {number} value The number in question + * @param {boolean=} unsigned Whether unsigned or not, defaults to `false` for signed + * @returns {!Long} The corresponding Long value + */ + Long.fromNumber = fromNumber; + + /** + * @param {number} lowBits + * @param {number} highBits + * @param {boolean=} unsigned + * @returns {!Long} + * @inner + */ + function fromBits(lowBits, highBits, unsigned) { + return new Long(lowBits, highBits, unsigned); + } + + /** + * Returns a Long representing the 64 bit integer that comes by concatenating the given low and high bits. Each is + * assumed to use 32 bits. + * @function + * @param {number} lowBits The low 32 bits + * @param {number} highBits The high 32 bits + * @param {boolean=} unsigned Whether unsigned or not, defaults to `false` for signed + * @returns {!Long} The corresponding Long value + */ + Long.fromBits = fromBits; + + /** + * @function + * @param {number} base + * @param {number} exponent + * @returns {number} + * @inner + */ + var pow_dbl = Math.pow; // Used 4 times (4*8 to 15+4) + + /** + * @param {string} str + * @param {(boolean|number)=} unsigned + * @param {number=} radix + * @returns {!Long} + * @inner + */ + function fromString(str, unsigned, radix) { + if (str.length === 0) + throw Error('empty string'); + if (str === "NaN" || str === "Infinity" || str === "+Infinity" || str === "-Infinity") + return ZERO; + if (typeof unsigned === 'number') { + // For goog.math.long compatibility + radix = unsigned, + unsigned = false; + } else { + unsigned = !! unsigned; + } + radix = radix || 10; + if (radix < 2 || 36 < radix) + throw RangeError('radix'); + + var p; + if ((p = str.indexOf('-')) > 0) + throw Error('interior hyphen'); + else if (p === 0) { + return fromString(str.substring(1), unsigned, radix).neg(); + } + + // Do several (8) digits each time through the loop, so as to + // minimize the calls to the very expensive emulated div. + var radixToPower = fromNumber(pow_dbl(radix, 8)); + + var result = ZERO; + for (var i = 0; i < str.length; i += 8) { + var size = Math.min(8, str.length - i), + value = parseInt(str.substring(i, i + size), radix); + if (size < 8) { + var power = fromNumber(pow_dbl(radix, size)); + result = result.mul(power).add(fromNumber(value)); + } else { + result = result.mul(radixToPower); + result = result.add(fromNumber(value)); + } + } + result.unsigned = unsigned; + return result; + } + + /** + * Returns a Long representation of the given string, written using the specified radix. + * @function + * @param {string} str The textual representation of the Long + * @param {(boolean|number)=} unsigned Whether unsigned or not, defaults to `false` for signed + * @param {number=} radix The radix in which the text is written (2-36), defaults to 10 + * @returns {!Long} The corresponding Long value + */ + Long.fromString = fromString; + + /** + * @function + * @param {!Long|number|string|!{low: number, high: number, unsigned: boolean}} val + * @returns {!Long} + * @inner + */ + function fromValue(val) { + if (val /* is compatible */ instanceof Long) + return val; + if (typeof val === 'number') + return fromNumber(val); + if (typeof val === 'string') + return fromString(val); + // Throws for non-objects, converts non-instanceof Long: + return fromBits(val.low, val.high, val.unsigned); + } + + /** + * Converts the specified value to a Long. + * @function + * @param {!Long|number|string|!{low: number, high: number, unsigned: boolean}} val Value + * @returns {!Long} + */ + Long.fromValue = fromValue; + + // NOTE: the compiler should inline these constant values below and then remove these variables, so there should be + // no runtime penalty for these. + + /** + * @type {number} + * @const + * @inner + */ + var TWO_PWR_16_DBL = 1 << 16; + + /** + * @type {number} + * @const + * @inner + */ + var TWO_PWR_24_DBL = 1 << 24; + + /** + * @type {number} + * @const + * @inner + */ + var TWO_PWR_32_DBL = TWO_PWR_16_DBL * TWO_PWR_16_DBL; + + /** + * @type {number} + * @const + * @inner + */ + var TWO_PWR_64_DBL = TWO_PWR_32_DBL * TWO_PWR_32_DBL; + + /** + * @type {number} + * @const + * @inner + */ + var TWO_PWR_63_DBL = TWO_PWR_64_DBL / 2; + + /** + * @type {!Long} + * @const + * @inner + */ + var TWO_PWR_24 = fromInt(TWO_PWR_24_DBL); + + /** + * @type {!Long} + * @inner + */ + var ZERO = fromInt(0); + + /** + * Signed zero. + * @type {!Long} + */ + Long.ZERO = ZERO; + + /** + * @type {!Long} + * @inner + */ + var UZERO = fromInt(0, true); + + /** + * Unsigned zero. + * @type {!Long} + */ + Long.UZERO = UZERO; + + /** + * @type {!Long} + * @inner + */ + var ONE = fromInt(1); + + /** + * Signed one. + * @type {!Long} + */ + Long.ONE = ONE; + + /** + * @type {!Long} + * @inner + */ + var UONE = fromInt(1, true); + + /** + * Unsigned one. + * @type {!Long} + */ + Long.UONE = UONE; + + /** + * @type {!Long} + * @inner + */ + var NEG_ONE = fromInt(-1); + + /** + * Signed negative one. + * @type {!Long} + */ + Long.NEG_ONE = NEG_ONE; + + /** + * @type {!Long} + * @inner + */ + var MAX_VALUE = fromBits(0xFFFFFFFF|0, 0x7FFFFFFF|0, false); + + /** + * Maximum signed value. + * @type {!Long} + */ + Long.MAX_VALUE = MAX_VALUE; + + /** + * @type {!Long} + * @inner + */ + var MAX_UNSIGNED_VALUE = fromBits(0xFFFFFFFF|0, 0xFFFFFFFF|0, true); + + /** + * Maximum unsigned value. + * @type {!Long} + */ + Long.MAX_UNSIGNED_VALUE = MAX_UNSIGNED_VALUE; + + /** + * @type {!Long} + * @inner + */ + var MIN_VALUE = fromBits(0, 0x80000000|0, false); + + /** + * Minimum signed value. + * @type {!Long} + */ + Long.MIN_VALUE = MIN_VALUE; + + /** + * @alias Long.prototype + * @inner + */ + var LongPrototype = Long.prototype; + + /** + * Converts the Long to a 32 bit integer, assuming it is a 32 bit integer. + * @returns {number} + */ + LongPrototype.toInt = function toInt() { + return this.unsigned ? this.low >>> 0 : this.low; + }; + + /** + * Converts the Long to a the nearest floating-point representation of this value (double, 53 bit mantissa). + * @returns {number} + */ + LongPrototype.toNumber = function toNumber() { + if (this.unsigned) + return ((this.high >>> 0) * TWO_PWR_32_DBL) + (this.low >>> 0); + return this.high * TWO_PWR_32_DBL + (this.low >>> 0); + }; + + /** + * Converts the Long to a string written in the specified radix. + * @param {number=} radix Radix (2-36), defaults to 10 + * @returns {string} + * @override + * @throws {RangeError} If `radix` is out of range + */ + LongPrototype.toString = function toString(radix) { + radix = radix || 10; + if (radix < 2 || 36 < radix) + throw RangeError('radix'); + if (this.isZero()) + return '0'; + if (this.isNegative()) { // Unsigned Longs are never negative + if (this.eq(MIN_VALUE)) { + // We need to change the Long value before it can be negated, so we remove + // the bottom-most digit in this base and then recurse to do the rest. + var radixLong = fromNumber(radix), + div = this.div(radixLong), + rem1 = div.mul(radixLong).sub(this); + return div.toString(radix) + rem1.toInt().toString(radix); + } else + return '-' + this.neg().toString(radix); + } + + // Do several (6) digits each time through the loop, so as to + // minimize the calls to the very expensive emulated div. + var radixToPower = fromNumber(pow_dbl(radix, 6), this.unsigned), + rem = this; + var result = ''; + while (true) { + var remDiv = rem.div(radixToPower), + intval = rem.sub(remDiv.mul(radixToPower)).toInt() >>> 0, + digits = intval.toString(radix); + rem = remDiv; + if (rem.isZero()) + return digits + result; + else { + while (digits.length < 6) + digits = '0' + digits; + result = '' + digits + result; + } + } + }; + + /** + * Gets the high 32 bits as a signed integer. + * @returns {number} Signed high bits + */ + LongPrototype.getHighBits = function getHighBits() { + return this.high; + }; + + /** + * Gets the high 32 bits as an unsigned integer. + * @returns {number} Unsigned high bits + */ + LongPrototype.getHighBitsUnsigned = function getHighBitsUnsigned() { + return this.high >>> 0; + }; + + /** + * Gets the low 32 bits as a signed integer. + * @returns {number} Signed low bits + */ + LongPrototype.getLowBits = function getLowBits() { + return this.low; + }; + + /** + * Gets the low 32 bits as an unsigned integer. + * @returns {number} Unsigned low bits + */ + LongPrototype.getLowBitsUnsigned = function getLowBitsUnsigned() { + return this.low >>> 0; + }; + + /** + * Gets the number of bits needed to represent the absolute value of this Long. + * @returns {number} + */ + LongPrototype.getNumBitsAbs = function getNumBitsAbs() { + if (this.isNegative()) // Unsigned Longs are never negative + return this.eq(MIN_VALUE) ? 64 : this.neg().getNumBitsAbs(); + var val = this.high != 0 ? this.high : this.low; + for (var bit = 31; bit > 0; bit--) + if ((val & (1 << bit)) != 0) + break; + return this.high != 0 ? bit + 33 : bit + 1; + }; + + /** + * Tests if this Long's value equals zero. + * @returns {boolean} + */ + LongPrototype.isZero = function isZero() { + return this.high === 0 && this.low === 0; + }; + + /** + * Tests if this Long's value is negative. + * @returns {boolean} + */ + LongPrototype.isNegative = function isNegative() { + return !this.unsigned && this.high < 0; + }; + + /** + * Tests if this Long's value is positive. + * @returns {boolean} + */ + LongPrototype.isPositive = function isPositive() { + return this.unsigned || this.high >= 0; + }; + + /** + * Tests if this Long's value is odd. + * @returns {boolean} + */ + LongPrototype.isOdd = function isOdd() { + return (this.low & 1) === 1; + }; + + /** + * Tests if this Long's value is even. + * @returns {boolean} + */ + LongPrototype.isEven = function isEven() { + return (this.low & 1) === 0; + }; + + /** + * Tests if this Long's value equals the specified's. + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.equals = function equals(other) { + if (!isLong(other)) + other = fromValue(other); + if (this.unsigned !== other.unsigned && (this.high >>> 31) === 1 && (other.high >>> 31) === 1) + return false; + return this.high === other.high && this.low === other.low; + }; + + /** + * Tests if this Long's value equals the specified's. This is an alias of {@link Long#equals}. + * @function + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.eq = LongPrototype.equals; + + /** + * Tests if this Long's value differs from the specified's. + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.notEquals = function notEquals(other) { + return !this.eq(/* validates */ other); + }; + + /** + * Tests if this Long's value differs from the specified's. This is an alias of {@link Long#notEquals}. + * @function + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.neq = LongPrototype.notEquals; + + /** + * Tests if this Long's value is less than the specified's. + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.lessThan = function lessThan(other) { + return this.comp(/* validates */ other) < 0; + }; + + /** + * Tests if this Long's value is less than the specified's. This is an alias of {@link Long#lessThan}. + * @function + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.lt = LongPrototype.lessThan; + + /** + * Tests if this Long's value is less than or equal the specified's. + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.lessThanOrEqual = function lessThanOrEqual(other) { + return this.comp(/* validates */ other) <= 0; + }; + + /** + * Tests if this Long's value is less than or equal the specified's. This is an alias of {@link Long#lessThanOrEqual}. + * @function + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.lte = LongPrototype.lessThanOrEqual; + + /** + * Tests if this Long's value is greater than the specified's. + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.greaterThan = function greaterThan(other) { + return this.comp(/* validates */ other) > 0; + }; + + /** + * Tests if this Long's value is greater than the specified's. This is an alias of {@link Long#greaterThan}. + * @function + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.gt = LongPrototype.greaterThan; + + /** + * Tests if this Long's value is greater than or equal the specified's. + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.greaterThanOrEqual = function greaterThanOrEqual(other) { + return this.comp(/* validates */ other) >= 0; + }; + + /** + * Tests if this Long's value is greater than or equal the specified's. This is an alias of {@link Long#greaterThanOrEqual}. + * @function + * @param {!Long|number|string} other Other value + * @returns {boolean} + */ + LongPrototype.gte = LongPrototype.greaterThanOrEqual; + + /** + * Compares this Long's value with the specified's. + * @param {!Long|number|string} other Other value + * @returns {number} 0 if they are the same, 1 if the this is greater and -1 + * if the given one is greater + */ + LongPrototype.compare = function compare(other) { + if (!isLong(other)) + other = fromValue(other); + if (this.eq(other)) + return 0; + var thisNeg = this.isNegative(), + otherNeg = other.isNegative(); + if (thisNeg && !otherNeg) + return -1; + if (!thisNeg && otherNeg) + return 1; + // At this point the sign bits are the same + if (!this.unsigned) + return this.sub(other).isNegative() ? -1 : 1; + // Both are positive if at least one is unsigned + return (other.high >>> 0) > (this.high >>> 0) || (other.high === this.high && (other.low >>> 0) > (this.low >>> 0)) ? -1 : 1; + }; + + /** + * Compares this Long's value with the specified's. This is an alias of {@link Long#compare}. + * @function + * @param {!Long|number|string} other Other value + * @returns {number} 0 if they are the same, 1 if the this is greater and -1 + * if the given one is greater + */ + LongPrototype.comp = LongPrototype.compare; + + /** + * Negates this Long's value. + * @returns {!Long} Negated Long + */ + LongPrototype.negate = function negate() { + if (!this.unsigned && this.eq(MIN_VALUE)) + return MIN_VALUE; + return this.not().add(ONE); + }; + + /** + * Negates this Long's value. This is an alias of {@link Long#negate}. + * @function + * @returns {!Long} Negated Long + */ + LongPrototype.neg = LongPrototype.negate; + + /** + * Returns the sum of this and the specified Long. + * @param {!Long|number|string} addend Addend + * @returns {!Long} Sum + */ + LongPrototype.add = function add(addend) { + if (!isLong(addend)) + addend = fromValue(addend); + + // Divide each number into 4 chunks of 16 bits, and then sum the chunks. + + var a48 = this.high >>> 16; + var a32 = this.high & 0xFFFF; + var a16 = this.low >>> 16; + var a00 = this.low & 0xFFFF; + + var b48 = addend.high >>> 16; + var b32 = addend.high & 0xFFFF; + var b16 = addend.low >>> 16; + var b00 = addend.low & 0xFFFF; + + var c48 = 0, c32 = 0, c16 = 0, c00 = 0; + c00 += a00 + b00; + c16 += c00 >>> 16; + c00 &= 0xFFFF; + c16 += a16 + b16; + c32 += c16 >>> 16; + c16 &= 0xFFFF; + c32 += a32 + b32; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c48 += a48 + b48; + c48 &= 0xFFFF; + return fromBits((c16 << 16) | c00, (c48 << 16) | c32, this.unsigned); + }; + + /** + * Returns the difference of this and the specified Long. + * @param {!Long|number|string} subtrahend Subtrahend + * @returns {!Long} Difference + */ + LongPrototype.subtract = function subtract(subtrahend) { + if (!isLong(subtrahend)) + subtrahend = fromValue(subtrahend); + return this.add(subtrahend.neg()); + }; + + /** + * Returns the difference of this and the specified Long. This is an alias of {@link Long#subtract}. + * @function + * @param {!Long|number|string} subtrahend Subtrahend + * @returns {!Long} Difference + */ + LongPrototype.sub = LongPrototype.subtract; + + /** + * Returns the product of this and the specified Long. + * @param {!Long|number|string} multiplier Multiplier + * @returns {!Long} Product + */ + LongPrototype.multiply = function multiply(multiplier) { + if (this.isZero()) + return ZERO; + if (!isLong(multiplier)) + multiplier = fromValue(multiplier); + if (multiplier.isZero()) + return ZERO; + if (this.eq(MIN_VALUE)) + return multiplier.isOdd() ? MIN_VALUE : ZERO; + if (multiplier.eq(MIN_VALUE)) + return this.isOdd() ? MIN_VALUE : ZERO; + + if (this.isNegative()) { + if (multiplier.isNegative()) + return this.neg().mul(multiplier.neg()); + else + return this.neg().mul(multiplier).neg(); + } else if (multiplier.isNegative()) + return this.mul(multiplier.neg()).neg(); + + // If both longs are small, use float multiplication + if (this.lt(TWO_PWR_24) && multiplier.lt(TWO_PWR_24)) + return fromNumber(this.toNumber() * multiplier.toNumber(), this.unsigned); + + // Divide each long into 4 chunks of 16 bits, and then add up 4x4 products. + // We can skip products that would overflow. + + var a48 = this.high >>> 16; + var a32 = this.high & 0xFFFF; + var a16 = this.low >>> 16; + var a00 = this.low & 0xFFFF; + + var b48 = multiplier.high >>> 16; + var b32 = multiplier.high & 0xFFFF; + var b16 = multiplier.low >>> 16; + var b00 = multiplier.low & 0xFFFF; + + var c48 = 0, c32 = 0, c16 = 0, c00 = 0; + c00 += a00 * b00; + c16 += c00 >>> 16; + c00 &= 0xFFFF; + c16 += a16 * b00; + c32 += c16 >>> 16; + c16 &= 0xFFFF; + c16 += a00 * b16; + c32 += c16 >>> 16; + c16 &= 0xFFFF; + c32 += a32 * b00; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c32 += a16 * b16; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c32 += a00 * b32; + c48 += c32 >>> 16; + c32 &= 0xFFFF; + c48 += a48 * b00 + a32 * b16 + a16 * b32 + a00 * b48; + c48 &= 0xFFFF; + return fromBits((c16 << 16) | c00, (c48 << 16) | c32, this.unsigned); + }; + + /** + * Returns the product of this and the specified Long. This is an alias of {@link Long#multiply}. + * @function + * @param {!Long|number|string} multiplier Multiplier + * @returns {!Long} Product + */ + LongPrototype.mul = LongPrototype.multiply; + + /** + * Returns this Long divided by the specified. The result is signed if this Long is signed or + * unsigned if this Long is unsigned. + * @param {!Long|number|string} divisor Divisor + * @returns {!Long} Quotient + */ + LongPrototype.divide = function divide(divisor) { + if (!isLong(divisor)) + divisor = fromValue(divisor); + if (divisor.isZero()) + throw Error('division by zero'); + if (this.isZero()) + return this.unsigned ? UZERO : ZERO; + var approx, rem, res; + if (!this.unsigned) { + // This section is only relevant for signed longs and is derived from the + // closure library as a whole. + if (this.eq(MIN_VALUE)) { + if (divisor.eq(ONE) || divisor.eq(NEG_ONE)) + return MIN_VALUE; // recall that -MIN_VALUE == MIN_VALUE + else if (divisor.eq(MIN_VALUE)) + return ONE; + else { + // At this point, we have |other| >= 2, so |this/other| < |MIN_VALUE|. + var halfThis = this.shr(1); + approx = halfThis.div(divisor).shl(1); + if (approx.eq(ZERO)) { + return divisor.isNegative() ? ONE : NEG_ONE; + } else { + rem = this.sub(divisor.mul(approx)); + res = approx.add(rem.div(divisor)); + return res; + } + } + } else if (divisor.eq(MIN_VALUE)) + return this.unsigned ? UZERO : ZERO; + if (this.isNegative()) { + if (divisor.isNegative()) + return this.neg().div(divisor.neg()); + return this.neg().div(divisor).neg(); + } else if (divisor.isNegative()) + return this.div(divisor.neg()).neg(); + res = ZERO; + } else { + // The algorithm below has not been made for unsigned longs. It's therefore + // required to take special care of the MSB prior to running it. + if (!divisor.unsigned) + divisor = divisor.toUnsigned(); + if (divisor.gt(this)) + return UZERO; + if (divisor.gt(this.shru(1))) // 15 >>> 1 = 7 ; with divisor = 8 ; true + return UONE; + res = UZERO; + } + + // Repeat the following until the remainder is less than other: find a + // floating-point that approximates remainder / other *from below*, add this + // into the result, and subtract it from the remainder. It is critical that + // the approximate value is less than or equal to the real value so that the + // remainder never becomes negative. + rem = this; + while (rem.gte(divisor)) { + // Approximate the result of division. This may be a little greater or + // smaller than the actual value. + approx = Math.max(1, Math.floor(rem.toNumber() / divisor.toNumber())); + + // We will tweak the approximate result by changing it in the 48-th digit or + // the smallest non-fractional digit, whichever is larger. + var log2 = Math.ceil(Math.log(approx) / Math.LN2), + delta = (log2 <= 48) ? 1 : pow_dbl(2, log2 - 48), + + // Decrease the approximation until it is smaller than the remainder. Note + // that if it is too large, the product overflows and is negative. + approxRes = fromNumber(approx), + approxRem = approxRes.mul(divisor); + while (approxRem.isNegative() || approxRem.gt(rem)) { + approx -= delta; + approxRes = fromNumber(approx, this.unsigned); + approxRem = approxRes.mul(divisor); + } + + // We know the answer can't be zero... and actually, zero would cause + // infinite recursion since we would make no progress. + if (approxRes.isZero()) + approxRes = ONE; + + res = res.add(approxRes); + rem = rem.sub(approxRem); + } + return res; + }; + + /** + * Returns this Long divided by the specified. This is an alias of {@link Long#divide}. + * @function + * @param {!Long|number|string} divisor Divisor + * @returns {!Long} Quotient + */ + LongPrototype.div = LongPrototype.divide; + + /** + * Returns this Long modulo the specified. + * @param {!Long|number|string} divisor Divisor + * @returns {!Long} Remainder + */ + LongPrototype.modulo = function modulo(divisor) { + if (!isLong(divisor)) + divisor = fromValue(divisor); + return this.sub(this.div(divisor).mul(divisor)); + }; + + /** + * Returns this Long modulo the specified. This is an alias of {@link Long#modulo}. + * @function + * @param {!Long|number|string} divisor Divisor + * @returns {!Long} Remainder + */ + LongPrototype.mod = LongPrototype.modulo; + + /** + * Returns the bitwise NOT of this Long. + * @returns {!Long} + */ + LongPrototype.not = function not() { + return fromBits(~this.low, ~this.high, this.unsigned); + }; + + /** + * Returns the bitwise AND of this Long and the specified. + * @param {!Long|number|string} other Other Long + * @returns {!Long} + */ + LongPrototype.and = function and(other) { + if (!isLong(other)) + other = fromValue(other); + return fromBits(this.low & other.low, this.high & other.high, this.unsigned); + }; + + /** + * Returns the bitwise OR of this Long and the specified. + * @param {!Long|number|string} other Other Long + * @returns {!Long} + */ + LongPrototype.or = function or(other) { + if (!isLong(other)) + other = fromValue(other); + return fromBits(this.low | other.low, this.high | other.high, this.unsigned); + }; + + /** + * Returns the bitwise XOR of this Long and the given one. + * @param {!Long|number|string} other Other Long + * @returns {!Long} + */ + LongPrototype.xor = function xor(other) { + if (!isLong(other)) + other = fromValue(other); + return fromBits(this.low ^ other.low, this.high ^ other.high, this.unsigned); + }; + + /** + * Returns this Long with bits shifted to the left by the given amount. + * @param {number|!Long} numBits Number of bits + * @returns {!Long} Shifted Long + */ + LongPrototype.shiftLeft = function shiftLeft(numBits) { + if (isLong(numBits)) + numBits = numBits.toInt(); + if ((numBits &= 63) === 0) + return this; + else if (numBits < 32) + return fromBits(this.low << numBits, (this.high << numBits) | (this.low >>> (32 - numBits)), this.unsigned); + else + return fromBits(0, this.low << (numBits - 32), this.unsigned); + }; + + /** + * Returns this Long with bits shifted to the left by the given amount. This is an alias of {@link Long#shiftLeft}. + * @function + * @param {number|!Long} numBits Number of bits + * @returns {!Long} Shifted Long + */ + LongPrototype.shl = LongPrototype.shiftLeft; + + /** + * Returns this Long with bits arithmetically shifted to the right by the given amount. + * @param {number|!Long} numBits Number of bits + * @returns {!Long} Shifted Long + */ + LongPrototype.shiftRight = function shiftRight(numBits) { + if (isLong(numBits)) + numBits = numBits.toInt(); + if ((numBits &= 63) === 0) + return this; + else if (numBits < 32) + return fromBits((this.low >>> numBits) | (this.high << (32 - numBits)), this.high >> numBits, this.unsigned); + else + return fromBits(this.high >> (numBits - 32), this.high >= 0 ? 0 : -1, this.unsigned); + }; + + /** + * Returns this Long with bits arithmetically shifted to the right by the given amount. This is an alias of {@link Long#shiftRight}. + * @function + * @param {number|!Long} numBits Number of bits + * @returns {!Long} Shifted Long + */ + LongPrototype.shr = LongPrototype.shiftRight; + + /** + * Returns this Long with bits logically shifted to the right by the given amount. + * @param {number|!Long} numBits Number of bits + * @returns {!Long} Shifted Long + */ + LongPrototype.shiftRightUnsigned = function shiftRightUnsigned(numBits) { + if (isLong(numBits)) + numBits = numBits.toInt(); + numBits &= 63; + if (numBits === 0) + return this; + else { + var high = this.high; + if (numBits < 32) { + var low = this.low; + return fromBits((low >>> numBits) | (high << (32 - numBits)), high >>> numBits, this.unsigned); + } else if (numBits === 32) + return fromBits(high, 0, this.unsigned); + else + return fromBits(high >>> (numBits - 32), 0, this.unsigned); + } + }; + + /** + * Returns this Long with bits logically shifted to the right by the given amount. This is an alias of {@link Long#shiftRightUnsigned}. + * @function + * @param {number|!Long} numBits Number of bits + * @returns {!Long} Shifted Long + */ + LongPrototype.shru = LongPrototype.shiftRightUnsigned; + + /** + * Converts this Long to signed. + * @returns {!Long} Signed long + */ + LongPrototype.toSigned = function toSigned() { + if (!this.unsigned) + return this; + return fromBits(this.low, this.high, false); + }; + + /** + * Converts this Long to unsigned. + * @returns {!Long} Unsigned long + */ + LongPrototype.toUnsigned = function toUnsigned() { + if (this.unsigned) + return this; + return fromBits(this.low, this.high, true); + }; + + /** + * Converts this Long to its byte representation. + * @param {boolean=} le Whether little or big endian, defaults to big endian + * @returns {!Array.} Byte representation + */ + LongPrototype.toBytes = function(le) { + return le ? this.toBytesLE() : this.toBytesBE(); + } + + /** + * Converts this Long to its little endian byte representation. + * @returns {!Array.} Little endian byte representation + */ + LongPrototype.toBytesLE = function() { + var hi = this.high, + lo = this.low; + return [ + lo & 0xff, + (lo >>> 8) & 0xff, + (lo >>> 16) & 0xff, + (lo >>> 24) & 0xff, + hi & 0xff, + (hi >>> 8) & 0xff, + (hi >>> 16) & 0xff, + (hi >>> 24) & 0xff + ]; + } + + /** + * Converts this Long to its big endian byte representation. + * @returns {!Array.} Big endian byte representation + */ + LongPrototype.toBytesBE = function() { + var hi = this.high, + lo = this.low; + return [ + (hi >>> 24) & 0xff, + (hi >>> 16) & 0xff, + (hi >>> 8) & 0xff, + hi & 0xff, + (lo >>> 24) & 0xff, + (lo >>> 16) & 0xff, + (lo >>> 8) & 0xff, + lo & 0xff + ]; + } + + return Long; +}); + +/* + Copyright 2013-2014 Daniel Wirtz + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. + */ + +/** + * @license ByteBuffer.js (c) 2013-2014 Daniel Wirtz + * This version of ByteBuffer.js uses an ArrayBuffer as its backing buffer which is accessed through a DataView and is + * compatible with modern browsers. + * Released under the Apache License, Version 2.0 + * see: https://github.com/dcodeIO/ByteBuffer.js for details + */ // +(function(global) { + "use strict"; + + /** + * @param {function(new: Long, number, number, boolean=)=} Long + * @returns {function(new: ByteBuffer, number=, boolean=, boolean=)}} + * @inner + */ + function loadByteBuffer(Long) { + + /** + * Constructs a new ByteBuffer. + * @class The swiss army knife for binary data in JavaScript. + * @exports ByteBuffer + * @constructor + * @param {number=} capacity Initial capacity. Defaults to {@link ByteBuffer.DEFAULT_CAPACITY}. + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @expose + */ + var ByteBuffer = function(capacity, littleEndian, noAssert) { + if (typeof capacity === 'undefined') capacity = ByteBuffer.DEFAULT_CAPACITY; + if (typeof littleEndian === 'undefined') littleEndian = ByteBuffer.DEFAULT_ENDIAN; + if (typeof noAssert === 'undefined') noAssert = ByteBuffer.DEFAULT_NOASSERT; + if (!noAssert) { + capacity = capacity | 0; + if (capacity < 0) + throw RangeError("Illegal capacity"); + littleEndian = !!littleEndian; + noAssert = !!noAssert; + } + + /** + * Backing buffer. + * @type {!ArrayBuffer} + * @expose + */ + this.buffer = capacity === 0 ? EMPTY_BUFFER : new ArrayBuffer(capacity); + + /** + * Data view to manipulate the backing buffer. Becomes `null` if the backing buffer has a capacity of `0`. + * @type {?DataView} + * @expose + */ + this.view = capacity === 0 ? null : new DataView(this.buffer); + + /** + * Absolute read/write offset. + * @type {number} + * @expose + * @see ByteBuffer#flip + * @see ByteBuffer#clear + */ + this.offset = 0; + + /** + * Marked offset. + * @type {number} + * @expose + * @see ByteBuffer#mark + * @see ByteBuffer#reset + */ + this.markedOffset = -1; + + /** + * Absolute limit of the contained data. Set to the backing buffer's capacity upon allocation. + * @type {number} + * @expose + * @see ByteBuffer#flip + * @see ByteBuffer#clear + */ + this.limit = capacity; + + /** + * Whether to use little endian byte order, defaults to `false` for big endian. + * @type {boolean} + * @expose + */ + this.littleEndian = typeof littleEndian !== 'undefined' ? !!littleEndian : false; + + /** + * Whether to skip assertions of offsets and values, defaults to `false`. + * @type {boolean} + * @expose + */ + this.noAssert = !!noAssert; + }; + + /** + * ByteBuffer version. + * @type {string} + * @const + * @expose + */ + ByteBuffer.VERSION = "3.5.5"; + + /** + * Little endian constant that can be used instead of its boolean value. Evaluates to `true`. + * @type {boolean} + * @const + * @expose + */ + ByteBuffer.LITTLE_ENDIAN = true; + + /** + * Big endian constant that can be used instead of its boolean value. Evaluates to `false`. + * @type {boolean} + * @const + * @expose + */ + ByteBuffer.BIG_ENDIAN = false; + + /** + * Default initial capacity of `16`. + * @type {number} + * @expose + */ + ByteBuffer.DEFAULT_CAPACITY = 16; + + /** + * Default endianess of `false` for big endian. + * @type {boolean} + * @expose + */ + ByteBuffer.DEFAULT_ENDIAN = ByteBuffer.BIG_ENDIAN; + + /** + * Default no assertions flag of `false`. + * @type {boolean} + * @expose + */ + ByteBuffer.DEFAULT_NOASSERT = false; + + /** + * A `Long` class for representing a 64-bit two's-complement integer value. May be `null` if Long.js has not been loaded + * and int64 support is not available. + * @type {?Long} + * @const + * @see https://github.com/dcodeIO/Long.js + * @expose + */ + ByteBuffer.Long = Long || null; + + /** + * @alias ByteBuffer.prototype + * @inner + */ + var ByteBufferPrototype = ByteBuffer.prototype; + + // helpers + + /** + * @type {!ArrayBuffer} + * @inner + */ + var EMPTY_BUFFER = new ArrayBuffer(0); + + /** + * String.fromCharCode reference for compile-time renaming. + * @type {function(...number):string} + * @inner + */ + var stringFromCharCode = String.fromCharCode; + + /** + * Creates a source function for a string. + * @param {string} s String to read from + * @returns {function():number|null} Source function returning the next char code respectively `null` if there are + * no more characters left. + * @throws {TypeError} If the argument is invalid + * @inner + */ + function stringSource(s) { + var i=0; return function() { + return i < s.length ? s.charCodeAt(i++) : null; + }; + } + + /** + * Creates a destination function for a string. + * @returns {function(number=):undefined|string} Destination function successively called with the next char code. + * Returns the final string when called without arguments. + * @inner + */ + function stringDestination() { + var cs = [], ps = []; return function() { + if (arguments.length === 0) + return ps.join('')+stringFromCharCode.apply(String, cs); + if (cs.length + arguments.length > 1024) + ps.push(stringFromCharCode.apply(String, cs)), + cs.length = 0; + Array.prototype.push.apply(cs, arguments); + }; + } + + /** + * Allocates a new ByteBuffer backed by a buffer of the specified capacity. + * @param {number=} capacity Initial capacity. Defaults to {@link ByteBuffer.DEFAULT_CAPACITY}. + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} + * @expose + */ + ByteBuffer.allocate = function(capacity, littleEndian, noAssert) { + return new ByteBuffer(capacity, littleEndian, noAssert); + }; + + /** + * Concatenates multiple ByteBuffers into one. + * @param {!Array.} buffers Buffers to concatenate + * @param {(string|boolean)=} encoding String encoding if `buffers` contains a string ("base64", "hex", "binary", + * defaults to "utf8") + * @param {boolean=} littleEndian Whether to use little or big endian byte order for the resulting ByteBuffer. Defaults + * to {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values for the resulting ByteBuffer. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} Concatenated ByteBuffer + * @expose + */ + ByteBuffer.concat = function(buffers, encoding, littleEndian, noAssert) { + if (typeof encoding === 'boolean' || typeof encoding !== 'string') { + noAssert = littleEndian; + littleEndian = encoding; + encoding = undefined; + } + var capacity = 0; + for (var i=0, k=buffers.length, length; i 0) capacity += length; + } + if (capacity === 0) + return new ByteBuffer(0, littleEndian, noAssert); + var bb = new ByteBuffer(capacity, littleEndian, noAssert), + bi; + var view = new Uint8Array(bb.buffer); + i=0; while (i} buffer Anything that can be wrapped + * @param {(string|boolean)=} encoding String encoding if `buffer` is a string ("base64", "hex", "binary", defaults to + * "utf8") + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} A ByteBuffer wrapping `buffer` + * @expose + */ + ByteBuffer.wrap = function(buffer, encoding, littleEndian, noAssert) { + if (typeof encoding !== 'string') { + noAssert = littleEndian; + littleEndian = encoding; + encoding = undefined; + } + if (typeof buffer === 'string') { + if (typeof encoding === 'undefined') + encoding = "utf8"; + switch (encoding) { + case "base64": + return ByteBuffer.fromBase64(buffer, littleEndian); + case "hex": + return ByteBuffer.fromHex(buffer, littleEndian); + case "binary": + return ByteBuffer.fromBinary(buffer, littleEndian); + case "utf8": + return ByteBuffer.fromUTF8(buffer, littleEndian); + case "debug": + return ByteBuffer.fromDebug(buffer, littleEndian); + default: + throw Error("Unsupported encoding: "+encoding); + } + } + if (buffer === null || typeof buffer !== 'object') + throw TypeError("Illegal buffer"); + var bb; + if (ByteBuffer.isByteBuffer(buffer)) { + bb = ByteBufferPrototype.clone.call(buffer); + bb.markedOffset = -1; + return bb; + } + if (buffer instanceof Uint8Array) { // Extract ArrayBuffer from Uint8Array + bb = new ByteBuffer(0, littleEndian, noAssert); + if (buffer.length > 0) { // Avoid references to more than one EMPTY_BUFFER + bb.buffer = buffer.buffer; + bb.offset = buffer.byteOffset; + bb.limit = buffer.byteOffset + buffer.length; + bb.view = buffer.length > 0 ? new DataView(buffer.buffer) : null; + } + } else if (buffer instanceof ArrayBuffer) { // Reuse ArrayBuffer + bb = new ByteBuffer(0, littleEndian, noAssert); + if (buffer.byteLength > 0) { + bb.buffer = buffer; + bb.offset = 0; + bb.limit = buffer.byteLength; + bb.view = buffer.byteLength > 0 ? new DataView(buffer) : null; + } + } else if (Object.prototype.toString.call(buffer) === "[object Array]") { // Create from octets + bb = new ByteBuffer(buffer.length, littleEndian, noAssert); + bb.limit = buffer.length; + for (i=0; i>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 1; + var capacity0 = this.buffer.byteLength; + if (offset > capacity0) + this.resize((capacity0 *= 2) > offset ? capacity0 : offset); + offset -= 1; + this.view.setInt8(offset, value); + if (relative) this.offset += 1; + return this; + }; + + /** + * Writes an 8bit signed integer. This is an alias of {@link ByteBuffer#writeInt8}. + * @function + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and advance {@link ByteBuffer#offset} by `1` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeByte = ByteBufferPrototype.writeInt8; + + /** + * Reads an 8bit signed integer. + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `1` if omitted. + * @returns {number} Value read + * @expose + */ + ByteBufferPrototype.readInt8 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 1 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+1+") <= "+this.buffer.byteLength); + } + var value = this.view.getInt8(offset); + if (relative) this.offset += 1; + return value; + }; + + /** + * Reads an 8bit signed integer. This is an alias of {@link ByteBuffer#readInt8}. + * @function + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `1` if omitted. + * @returns {number} Value read + * @expose + */ + ByteBufferPrototype.readByte = ByteBufferPrototype.readInt8; + + /** + * Writes an 8bit unsigned integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and advance {@link ByteBuffer#offset} by `1` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeUint8 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value >>>= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 1; + var capacity1 = this.buffer.byteLength; + if (offset > capacity1) + this.resize((capacity1 *= 2) > offset ? capacity1 : offset); + offset -= 1; + this.view.setUint8(offset, value); + if (relative) this.offset += 1; + return this; + }; + + /** + * Reads an 8bit unsigned integer. + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `1` if omitted. + * @returns {number} Value read + * @expose + */ + ByteBufferPrototype.readUint8 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 1 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+1+") <= "+this.buffer.byteLength); + } + var value = this.view.getUint8(offset); + if (relative) this.offset += 1; + return value; + }; + + // types/ints/int16 + + /** + * Writes a 16bit signed integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and advance {@link ByteBuffer#offset} by `2` if omitted. + * @throws {TypeError} If `offset` or `value` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @expose + */ + ByteBufferPrototype.writeInt16 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value |= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 2; + var capacity2 = this.buffer.byteLength; + if (offset > capacity2) + this.resize((capacity2 *= 2) > offset ? capacity2 : offset); + offset -= 2; + this.view.setInt16(offset, value, this.littleEndian); + if (relative) this.offset += 2; + return this; + }; + + /** + * Writes a 16bit signed integer. This is an alias of {@link ByteBuffer#writeInt16}. + * @function + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and advance {@link ByteBuffer#offset} by `2` if omitted. + * @throws {TypeError} If `offset` or `value` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @expose + */ + ByteBufferPrototype.writeShort = ByteBufferPrototype.writeInt16; + + /** + * Reads a 16bit signed integer. + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `2` if omitted. + * @returns {number} Value read + * @throws {TypeError} If `offset` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @expose + */ + ByteBufferPrototype.readInt16 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 2 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+2+") <= "+this.buffer.byteLength); + } + var value = this.view.getInt16(offset, this.littleEndian); + if (relative) this.offset += 2; + return value; + }; + + /** + * Reads a 16bit signed integer. This is an alias of {@link ByteBuffer#readInt16}. + * @function + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `2` if omitted. + * @returns {number} Value read + * @throws {TypeError} If `offset` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @expose + */ + ByteBufferPrototype.readShort = ByteBufferPrototype.readInt16; + + /** + * Writes a 16bit unsigned integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and advance {@link ByteBuffer#offset} by `2` if omitted. + * @throws {TypeError} If `offset` or `value` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @expose + */ + ByteBufferPrototype.writeUint16 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value >>>= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 2; + var capacity3 = this.buffer.byteLength; + if (offset > capacity3) + this.resize((capacity3 *= 2) > offset ? capacity3 : offset); + offset -= 2; + this.view.setUint16(offset, value, this.littleEndian); + if (relative) this.offset += 2; + return this; + }; + + /** + * Reads a 16bit unsigned integer. + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `2` if omitted. + * @returns {number} Value read + * @throws {TypeError} If `offset` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @expose + */ + ByteBufferPrototype.readUint16 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 2 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+2+") <= "+this.buffer.byteLength); + } + var value = this.view.getUint16(offset, this.littleEndian); + if (relative) this.offset += 2; + return value; + }; + + // types/ints/int32 + + /** + * Writes a 32bit signed integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @expose + */ + ByteBufferPrototype.writeInt32 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value |= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 4; + var capacity4 = this.buffer.byteLength; + if (offset > capacity4) + this.resize((capacity4 *= 2) > offset ? capacity4 : offset); + offset -= 4; + this.view.setInt32(offset, value, this.littleEndian); + if (relative) this.offset += 4; + return this; + }; + + /** + * Writes a 32bit signed integer. This is an alias of {@link ByteBuffer#writeInt32}. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @expose + */ + ByteBufferPrototype.writeInt = ByteBufferPrototype.writeInt32; + + /** + * Reads a 32bit signed integer. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @returns {number} Value read + * @expose + */ + ByteBufferPrototype.readInt32 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 4 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+4+") <= "+this.buffer.byteLength); + } + var value = this.view.getInt32(offset, this.littleEndian); + if (relative) this.offset += 4; + return value; + }; + + /** + * Reads a 32bit signed integer. This is an alias of {@link ByteBuffer#readInt32}. + * @param {number=} offset Offset to read from. Will use and advance {@link ByteBuffer#offset} by `4` if omitted. + * @returns {number} Value read + * @expose + */ + ByteBufferPrototype.readInt = ByteBufferPrototype.readInt32; + + /** + * Writes a 32bit unsigned integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @expose + */ + ByteBufferPrototype.writeUint32 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value >>>= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 4; + var capacity5 = this.buffer.byteLength; + if (offset > capacity5) + this.resize((capacity5 *= 2) > offset ? capacity5 : offset); + offset -= 4; + this.view.setUint32(offset, value, this.littleEndian); + if (relative) this.offset += 4; + return this; + }; + + /** + * Reads a 32bit unsigned integer. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @returns {number} Value read + * @expose + */ + ByteBufferPrototype.readUint32 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 4 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+4+") <= "+this.buffer.byteLength); + } + var value = this.view.getUint32(offset, this.littleEndian); + if (relative) this.offset += 4; + return value; + }; + + // types/ints/int64 + + if (Long) { + + /** + * Writes a 64bit signed integer. + * @param {number|!Long} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeInt64 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value === 'number') + value = Long.fromNumber(value); + else if (typeof value === 'string') + value = Long.fromString(value); + else if (!(value && value instanceof Long)) + throw TypeError("Illegal value: "+value+" (not an integer or Long)"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + if (typeof value === 'number') + value = Long.fromNumber(value); + else if (typeof value === 'string') + value = Long.fromString(value); + offset += 8; + var capacity6 = this.buffer.byteLength; + if (offset > capacity6) + this.resize((capacity6 *= 2) > offset ? capacity6 : offset); + offset -= 8; + if (this.littleEndian) { + this.view.setInt32(offset , value.low , true); + this.view.setInt32(offset+4, value.high, true); + } else { + this.view.setInt32(offset , value.high, false); + this.view.setInt32(offset+4, value.low , false); + } + if (relative) this.offset += 8; + return this; + }; + + /** + * Writes a 64bit signed integer. This is an alias of {@link ByteBuffer#writeInt64}. + * @param {number|!Long} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeLong = ByteBufferPrototype.writeInt64; + + /** + * Reads a 64bit signed integer. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!Long} + * @expose + */ + ByteBufferPrototype.readInt64 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 8 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+8+") <= "+this.buffer.byteLength); + } + var value = this.littleEndian + ? new Long(this.view.getInt32(offset , true ), this.view.getInt32(offset+4, true ), false) + : new Long(this.view.getInt32(offset+4, false), this.view.getInt32(offset , false), false); + if (relative) this.offset += 8; + return value; + }; + + /** + * Reads a 64bit signed integer. This is an alias of {@link ByteBuffer#readInt64}. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!Long} + * @expose + */ + ByteBufferPrototype.readLong = ByteBufferPrototype.readInt64; + + /** + * Writes a 64bit unsigned integer. + * @param {number|!Long} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeUint64 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value === 'number') + value = Long.fromNumber(value); + else if (typeof value === 'string') + value = Long.fromString(value); + else if (!(value && value instanceof Long)) + throw TypeError("Illegal value: "+value+" (not an integer or Long)"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + if (typeof value === 'number') + value = Long.fromNumber(value); + else if (typeof value === 'string') + value = Long.fromString(value); + offset += 8; + var capacity7 = this.buffer.byteLength; + if (offset > capacity7) + this.resize((capacity7 *= 2) > offset ? capacity7 : offset); + offset -= 8; + if (this.littleEndian) { + this.view.setInt32(offset , value.low , true); + this.view.setInt32(offset+4, value.high, true); + } else { + this.view.setInt32(offset , value.high, false); + this.view.setInt32(offset+4, value.low , false); + } + if (relative) this.offset += 8; + return this; + }; + + /** + * Reads a 64bit unsigned integer. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!Long} + * @expose + */ + ByteBufferPrototype.readUint64 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 8 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+8+") <= "+this.buffer.byteLength); + } + var value = this.littleEndian + ? new Long(this.view.getInt32(offset , true ), this.view.getInt32(offset+4, true ), true) + : new Long(this.view.getInt32(offset+4, false), this.view.getInt32(offset , false), true); + if (relative) this.offset += 8; + return value; + }; + + } // Long + + + // types/floats/float32 + + /** + * Writes a 32bit float. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeFloat32 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number') + throw TypeError("Illegal value: "+value+" (not a number)"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 4; + var capacity8 = this.buffer.byteLength; + if (offset > capacity8) + this.resize((capacity8 *= 2) > offset ? capacity8 : offset); + offset -= 4; + this.view.setFloat32(offset, value, this.littleEndian); + if (relative) this.offset += 4; + return this; + }; + + /** + * Writes a 32bit float. This is an alias of {@link ByteBuffer#writeFloat32}. + * @function + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeFloat = ByteBufferPrototype.writeFloat32; + + /** + * Reads a 32bit float. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @returns {number} + * @expose + */ + ByteBufferPrototype.readFloat32 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 4 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+4+") <= "+this.buffer.byteLength); + } + var value = this.view.getFloat32(offset, this.littleEndian); + if (relative) this.offset += 4; + return value; + }; + + /** + * Reads a 32bit float. This is an alias of {@link ByteBuffer#readFloat32}. + * @function + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `4` if omitted. + * @returns {number} + * @expose + */ + ByteBufferPrototype.readFloat = ByteBufferPrototype.readFloat32; + + // types/floats/float64 + + /** + * Writes a 64bit float. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeFloat64 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number') + throw TypeError("Illegal value: "+value+" (not a number)"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + offset += 8; + var capacity9 = this.buffer.byteLength; + if (offset > capacity9) + this.resize((capacity9 *= 2) > offset ? capacity9 : offset); + offset -= 8; + this.view.setFloat64(offset, value, this.littleEndian); + if (relative) this.offset += 8; + return this; + }; + + /** + * Writes a 64bit float. This is an alias of {@link ByteBuffer#writeFloat64}. + * @function + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.writeDouble = ByteBufferPrototype.writeFloat64; + + /** + * Reads a 64bit float. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {number} + * @expose + */ + ByteBufferPrototype.readFloat64 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 8 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+8+") <= "+this.buffer.byteLength); + } + var value = this.view.getFloat64(offset, this.littleEndian); + if (relative) this.offset += 8; + return value; + }; + + /** + * Reads a 64bit float. This is an alias of {@link ByteBuffer#readFloat64}. + * @function + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by `8` if omitted. + * @returns {number} + * @expose + */ + ByteBufferPrototype.readDouble = ByteBufferPrototype.readFloat64; + + + // types/varints/varint32 + + /** + * Maximum number of bytes required to store a 32bit base 128 variable-length integer. + * @type {number} + * @const + * @expose + */ + ByteBuffer.MAX_VARINT32_BYTES = 5; + + /** + * Calculates the actual number of bytes required to store a 32bit base 128 variable-length integer. + * @param {number} value Value to encode + * @returns {number} Number of bytes required. Capped to {@link ByteBuffer.MAX_VARINT32_BYTES} + * @expose + */ + ByteBuffer.calculateVarint32 = function(value) { + // ref: src/google/protobuf/io/coded_stream.cc + value = value >>> 0; + if (value < 1 << 7 ) return 1; + else if (value < 1 << 14) return 2; + else if (value < 1 << 21) return 3; + else if (value < 1 << 28) return 4; + else return 5; + }; + + /** + * Zigzag encodes a signed 32bit integer so that it can be effectively used with varint encoding. + * @param {number} n Signed 32bit integer + * @returns {number} Unsigned zigzag encoded 32bit integer + * @expose + */ + ByteBuffer.zigZagEncode32 = function(n) { + return (((n |= 0) << 1) ^ (n >> 31)) >>> 0; // ref: src/google/protobuf/wire_format_lite.h + }; + + /** + * Decodes a zigzag encoded signed 32bit integer. + * @param {number} n Unsigned zigzag encoded 32bit integer + * @returns {number} Signed 32bit integer + * @expose + */ + ByteBuffer.zigZagDecode32 = function(n) { + return ((n >>> 1) ^ -(n & 1)) | 0; // // ref: src/google/protobuf/wire_format_lite.h + }; + + /** + * Writes a 32bit base 128 variable-length integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {!ByteBuffer|number} this if `offset` is omitted, else the actual number of bytes written + * @expose + */ + ByteBufferPrototype.writeVarint32 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value |= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + var size = ByteBuffer.calculateVarint32(value), + b; + offset += size; + var capacity10 = this.buffer.byteLength; + if (offset > capacity10) + this.resize((capacity10 *= 2) > offset ? capacity10 : offset); + offset -= size; + // ref: http://code.google.com/searchframe#WTeibokF6gE/trunk/src/google/protobuf/io/coded_stream.cc + this.view.setUint8(offset, b = value | 0x80); + value >>>= 0; + if (value >= 1 << 7) { + b = (value >> 7) | 0x80; + this.view.setUint8(offset+1, b); + if (value >= 1 << 14) { + b = (value >> 14) | 0x80; + this.view.setUint8(offset+2, b); + if (value >= 1 << 21) { + b = (value >> 21) | 0x80; + this.view.setUint8(offset+3, b); + if (value >= 1 << 28) { + this.view.setUint8(offset+4, (value >> 28) & 0x0F); + size = 5; + } else { + this.view.setUint8(offset+3, b & 0x7F); + size = 4; + } + } else { + this.view.setUint8(offset+2, b & 0x7F); + size = 3; + } + } else { + this.view.setUint8(offset+1, b & 0x7F); + size = 2; + } + } else { + this.view.setUint8(offset, b & 0x7F); + size = 1; + } + if (relative) { + this.offset += size; + return this; + } + return size; + }; + + /** + * Writes a zig-zag encoded 32bit base 128 variable-length integer. + * @param {number} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {!ByteBuffer|number} this if `offset` is omitted, else the actual number of bytes written + * @expose + */ + ByteBufferPrototype.writeVarint32ZigZag = function(value, offset) { + return this.writeVarint32(ByteBuffer.zigZagEncode32(value), offset); + }; + + /** + * Reads a 32bit base 128 variable-length integer. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {number|!{value: number, length: number}} The value read if offset is omitted, else the value read + * and the actual number of bytes read. + * @throws {Error} If it's not a valid varint. Has a property `truncated = true` if there is not enough data available + * to fully decode the varint. + * @expose + */ + ByteBufferPrototype.readVarint32 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 1 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+1+") <= "+this.buffer.byteLength); + } + // ref: src/google/protobuf/io/coded_stream.cc + var size = 0, + value = 0 >>> 0, + temp, + ioffset; + do { + ioffset = offset+size; + if (!this.noAssert && ioffset > this.limit) { + var err = Error("Truncated"); + err['truncated'] = true; + throw err; + } + temp = this.view.getUint8(ioffset); + if (size < 5) + value |= ((temp&0x7F)<<(7*size)) >>> 0; + ++size; + } while ((temp & 0x80) === 0x80); + value = value | 0; // Make sure to discard the higher order bits + if (relative) { + this.offset += size; + return value; + } + return { + "value": value, + "length": size + }; + }; + + /** + * Reads a zig-zag encoded 32bit base 128 variable-length integer. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {number|!{value: number, length: number}} The value read if offset is omitted, else the value read + * and the actual number of bytes read. + * @throws {Error} If it's not a valid varint + * @expose + */ + ByteBufferPrototype.readVarint32ZigZag = function(offset) { + var val = this.readVarint32(offset); + if (typeof val === 'object') + val["value"] = ByteBuffer.zigZagDecode32(val["value"]); + else + val = ByteBuffer.zigZagDecode32(val); + return val; + }; + + // types/varints/varint64 + + if (Long) { + + /** + * Maximum number of bytes required to store a 64bit base 128 variable-length integer. + * @type {number} + * @const + * @expose + */ + ByteBuffer.MAX_VARINT64_BYTES = 10; + + /** + * Calculates the actual number of bytes required to store a 64bit base 128 variable-length integer. + * @param {number|!Long} value Value to encode + * @returns {number} Number of bytes required. Capped to {@link ByteBuffer.MAX_VARINT64_BYTES} + * @expose + */ + ByteBuffer.calculateVarint64 = function(value) { + if (typeof value === 'number') + value = Long.fromNumber(value); + else if (typeof value === 'string') + value = Long.fromString(value); + // ref: src/google/protobuf/io/coded_stream.cc + var part0 = value.toInt() >>> 0, + part1 = value.shiftRightUnsigned(28).toInt() >>> 0, + part2 = value.shiftRightUnsigned(56).toInt() >>> 0; + if (part2 == 0) { + if (part1 == 0) { + if (part0 < 1 << 14) + return part0 < 1 << 7 ? 1 : 2; + else + return part0 < 1 << 21 ? 3 : 4; + } else { + if (part1 < 1 << 14) + return part1 < 1 << 7 ? 5 : 6; + else + return part1 < 1 << 21 ? 7 : 8; + } + } else + return part2 < 1 << 7 ? 9 : 10; + }; + + /** + * Zigzag encodes a signed 64bit integer so that it can be effectively used with varint encoding. + * @param {number|!Long} value Signed long + * @returns {!Long} Unsigned zigzag encoded long + * @expose + */ + ByteBuffer.zigZagEncode64 = function(value) { + if (typeof value === 'number') + value = Long.fromNumber(value, false); + else if (typeof value === 'string') + value = Long.fromString(value, false); + else if (value.unsigned !== false) value = value.toSigned(); + // ref: src/google/protobuf/wire_format_lite.h + return value.shiftLeft(1).xor(value.shiftRight(63)).toUnsigned(); + }; + + /** + * Decodes a zigzag encoded signed 64bit integer. + * @param {!Long|number} value Unsigned zigzag encoded long or JavaScript number + * @returns {!Long} Signed long + * @expose + */ + ByteBuffer.zigZagDecode64 = function(value) { + if (typeof value === 'number') + value = Long.fromNumber(value, false); + else if (typeof value === 'string') + value = Long.fromString(value, false); + else if (value.unsigned !== false) value = value.toSigned(); + // ref: src/google/protobuf/wire_format_lite.h + return value.shiftRightUnsigned(1).xor(value.and(Long.ONE).toSigned().negate()).toSigned(); + }; + + /** + * Writes a 64bit base 128 variable-length integer. + * @param {number|Long} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {!ByteBuffer|number} `this` if offset is omitted, else the actual number of bytes written. + * @expose + */ + ByteBufferPrototype.writeVarint64 = function(value, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof value === 'number') + value = Long.fromNumber(value); + else if (typeof value === 'string') + value = Long.fromString(value); + else if (!(value && value instanceof Long)) + throw TypeError("Illegal value: "+value+" (not an integer or Long)"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + if (typeof value === 'number') + value = Long.fromNumber(value, false); + else if (typeof value === 'string') + value = Long.fromString(value, false); + else if (value.unsigned !== false) value = value.toSigned(); + var size = ByteBuffer.calculateVarint64(value), + part0 = value.toInt() >>> 0, + part1 = value.shiftRightUnsigned(28).toInt() >>> 0, + part2 = value.shiftRightUnsigned(56).toInt() >>> 0; + offset += size; + var capacity11 = this.buffer.byteLength; + if (offset > capacity11) + this.resize((capacity11 *= 2) > offset ? capacity11 : offset); + offset -= size; + switch (size) { + case 10: this.view.setUint8(offset+9, (part2 >>> 7) & 0x01); + case 9 : this.view.setUint8(offset+8, size !== 9 ? (part2 ) | 0x80 : (part2 ) & 0x7F); + case 8 : this.view.setUint8(offset+7, size !== 8 ? (part1 >>> 21) | 0x80 : (part1 >>> 21) & 0x7F); + case 7 : this.view.setUint8(offset+6, size !== 7 ? (part1 >>> 14) | 0x80 : (part1 >>> 14) & 0x7F); + case 6 : this.view.setUint8(offset+5, size !== 6 ? (part1 >>> 7) | 0x80 : (part1 >>> 7) & 0x7F); + case 5 : this.view.setUint8(offset+4, size !== 5 ? (part1 ) | 0x80 : (part1 ) & 0x7F); + case 4 : this.view.setUint8(offset+3, size !== 4 ? (part0 >>> 21) | 0x80 : (part0 >>> 21) & 0x7F); + case 3 : this.view.setUint8(offset+2, size !== 3 ? (part0 >>> 14) | 0x80 : (part0 >>> 14) & 0x7F); + case 2 : this.view.setUint8(offset+1, size !== 2 ? (part0 >>> 7) | 0x80 : (part0 >>> 7) & 0x7F); + case 1 : this.view.setUint8(offset , size !== 1 ? (part0 ) | 0x80 : (part0 ) & 0x7F); + } + if (relative) { + this.offset += size; + return this; + } else { + return size; + } + }; + + /** + * Writes a zig-zag encoded 64bit base 128 variable-length integer. + * @param {number|Long} value Value to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {!ByteBuffer|number} `this` if offset is omitted, else the actual number of bytes written. + * @expose + */ + ByteBufferPrototype.writeVarint64ZigZag = function(value, offset) { + return this.writeVarint64(ByteBuffer.zigZagEncode64(value), offset); + }; + + /** + * Reads a 64bit base 128 variable-length integer. Requires Long.js. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {!Long|!{value: Long, length: number}} The value read if offset is omitted, else the value read and + * the actual number of bytes read. + * @throws {Error} If it's not a valid varint + * @expose + */ + ByteBufferPrototype.readVarint64 = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 1 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+1+") <= "+this.buffer.byteLength); + } + // ref: src/google/protobuf/io/coded_stream.cc + var start = offset, + part0 = 0, + part1 = 0, + part2 = 0, + b = 0; + b = this.view.getUint8(offset++); part0 = (b & 0x7F) ; if (b & 0x80) { + b = this.view.getUint8(offset++); part0 |= (b & 0x7F) << 7; if (b & 0x80) { + b = this.view.getUint8(offset++); part0 |= (b & 0x7F) << 14; if (b & 0x80) { + b = this.view.getUint8(offset++); part0 |= (b & 0x7F) << 21; if (b & 0x80) { + b = this.view.getUint8(offset++); part1 = (b & 0x7F) ; if (b & 0x80) { + b = this.view.getUint8(offset++); part1 |= (b & 0x7F) << 7; if (b & 0x80) { + b = this.view.getUint8(offset++); part1 |= (b & 0x7F) << 14; if (b & 0x80) { + b = this.view.getUint8(offset++); part1 |= (b & 0x7F) << 21; if (b & 0x80) { + b = this.view.getUint8(offset++); part2 = (b & 0x7F) ; if (b & 0x80) { + b = this.view.getUint8(offset++); part2 |= (b & 0x7F) << 7; if (b & 0x80) { + throw Error("Buffer overrun"); }}}}}}}}}} + var value = Long.fromBits(part0 | (part1 << 28), (part1 >>> 4) | (part2) << 24, false); + if (relative) { + this.offset = offset; + return value; + } else { + return { + 'value': value, + 'length': offset-start + }; + } + }; + + /** + * Reads a zig-zag encoded 64bit base 128 variable-length integer. Requires Long.js. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {!Long|!{value: Long, length: number}} The value read if offset is omitted, else the value read and + * the actual number of bytes read. + * @throws {Error} If it's not a valid varint + * @expose + */ + ByteBufferPrototype.readVarint64ZigZag = function(offset) { + var val = this.readVarint64(offset); + if (val && val['value'] instanceof Long) + val["value"] = ByteBuffer.zigZagDecode64(val["value"]); + else + val = ByteBuffer.zigZagDecode64(val); + return val; + }; + + } // Long + + + // types/strings/cstring + + /** + * Writes a NULL-terminated UTF8 encoded string. For this to work the specified string must not contain any NULL + * characters itself. + * @param {string} str String to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * contained in `str` + 1 if omitted. + * @returns {!ByteBuffer|number} this if offset is omitted, else the actual number of bytes written + * @expose + */ + ByteBufferPrototype.writeCString = function(str, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + var i, + k = str.length; + if (!this.noAssert) { + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + for (i=0; i>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + // UTF8 strings do not contain zero bytes in between except for the zero character, so: + k = utfx.calculateUTF16asUTF8(stringSource(str))[1]; + offset += k+1; + var capacity12 = this.buffer.byteLength; + if (offset > capacity12) + this.resize((capacity12 *= 2) > offset ? capacity12 : offset); + offset -= k+1; + utfx.encodeUTF16toUTF8(stringSource(str), function(b) { + this.view.setUint8(offset++, b); + }.bind(this)); + this.view.setUint8(offset++, 0); + if (relative) { + this.offset = offset; + return this; + } + return k; + }; + + /** + * Reads a NULL-terminated UTF8 encoded string. For this to work the string read must not contain any NULL characters + * itself. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {string|!{string: string, length: number}} The string read if offset is omitted, else the string + * read and the actual number of bytes read. + * @expose + */ + ByteBufferPrototype.readCString = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 1 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+1+") <= "+this.buffer.byteLength); + } + var start = offset, + temp; + // UTF8 strings do not contain zero bytes in between except for the zero character itself, so: + var sd, b = -1; + utfx.decodeUTF8toUTF16(function() { + if (b === 0) return null; + if (offset >= this.limit) + throw RangeError("Illegal range: Truncated data, "+offset+" < "+this.limit); + return (b = this.view.getUint8(offset++)) === 0 ? null : b; + }.bind(this), sd = stringDestination(), true); + if (relative) { + this.offset = offset; + return sd(); + } else { + return { + "string": sd(), + "length": offset - start + }; + } + }; + + // types/strings/istring + + /** + * Writes a length as uint32 prefixed UTF8 encoded string. + * @param {string} str String to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {!ByteBuffer|number} `this` if `offset` is omitted, else the actual number of bytes written + * @expose + * @see ByteBuffer#writeVarint32 + */ + ByteBufferPrototype.writeIString = function(str, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + var start = offset, + k; + k = utfx.calculateUTF16asUTF8(stringSource(str), this.noAssert)[1]; + offset += 4+k; + var capacity13 = this.buffer.byteLength; + if (offset > capacity13) + this.resize((capacity13 *= 2) > offset ? capacity13 : offset); + offset -= 4+k; + this.view.setUint32(offset, k, this.littleEndian); + offset += 4; + utfx.encodeUTF16toUTF8(stringSource(str), function(b) { + this.view.setUint8(offset++, b); + }.bind(this)); + if (offset !== start + 4 + k) + throw RangeError("Illegal range: Truncated data, "+offset+" == "+(offset+4+k)); + if (relative) { + this.offset = offset; + return this; + } + return offset - start; + }; + + /** + * Reads a length as uint32 prefixed UTF8 encoded string. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {string|!{string: string, length: number}} The string read if offset is omitted, else the string + * read and the actual number of bytes read. + * @expose + * @see ByteBuffer#readVarint32 + */ + ByteBufferPrototype.readIString = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 4 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+4+") <= "+this.buffer.byteLength); + } + var temp = 0, + start = offset, + str; + temp = this.view.getUint32(offset, this.littleEndian); + offset += 4; + var k = offset + temp, + sd; + utfx.decodeUTF8toUTF16(function() { + return offset < k ? this.view.getUint8(offset++) : null; + }.bind(this), sd = stringDestination(), this.noAssert); + str = sd(); + if (relative) { + this.offset = offset; + return str; + } else { + return { + 'string': str, + 'length': offset - start + }; + } + }; + + // types/strings/utf8string + + /** + * Metrics representing number of UTF8 characters. Evaluates to `c`. + * @type {string} + * @const + * @expose + */ + ByteBuffer.METRICS_CHARS = 'c'; + + /** + * Metrics representing number of bytes. Evaluates to `b`. + * @type {string} + * @const + * @expose + */ + ByteBuffer.METRICS_BYTES = 'b'; + + /** + * Writes an UTF8 encoded string. + * @param {string} str String to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} if omitted. + * @returns {!ByteBuffer|number} this if offset is omitted, else the actual number of bytes written. + * @expose + */ + ByteBufferPrototype.writeUTF8String = function(str, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + var k; + var start = offset; + k = utfx.calculateUTF16asUTF8(stringSource(str))[1]; + offset += k; + var capacity14 = this.buffer.byteLength; + if (offset > capacity14) + this.resize((capacity14 *= 2) > offset ? capacity14 : offset); + offset -= k; + utfx.encodeUTF16toUTF8(stringSource(str), function(b) { + this.view.setUint8(offset++, b); + }.bind(this)); + if (relative) { + this.offset = offset; + return this; + } + return offset - start; + }; + + /** + * Writes an UTF8 encoded string. This is an alias of {@link ByteBuffer#writeUTF8String}. + * @function + * @param {string} str String to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} if omitted. + * @returns {!ByteBuffer|number} this if offset is omitted, else the actual number of bytes written. + * @expose + */ + ByteBufferPrototype.writeString = ByteBufferPrototype.writeUTF8String; + + /** + * Calculates the number of UTF8 characters of a string. JavaScript itself uses UTF-16, so that a string's + * `length` property does not reflect its actual UTF8 size if it contains code points larger than 0xFFFF. + * @function + * @param {string} str String to calculate + * @returns {number} Number of UTF8 characters + * @expose + */ + ByteBuffer.calculateUTF8Chars = function(str) { + return utfx.calculateUTF16asUTF8(stringSource(str))[0]; + }; + + /** + * Calculates the number of UTF8 bytes of a string. + * @function + * @param {string} str String to calculate + * @returns {number} Number of UTF8 bytes + * @expose + */ + ByteBuffer.calculateUTF8Bytes = function(str) { + return utfx.calculateUTF16asUTF8(stringSource(str))[1]; + }; + + /** + * Reads an UTF8 encoded string. + * @param {number} length Number of characters or bytes to read. + * @param {string=} metrics Metrics specifying what `length` is meant to count. Defaults to + * {@link ByteBuffer.METRICS_CHARS}. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {string|!{string: string, length: number}} The string read if offset is omitted, else the string + * read and the actual number of bytes read. + * @expose + */ + ByteBufferPrototype.readUTF8String = function(length, metrics, offset) { + if (typeof metrics === 'number') { + offset = metrics; + metrics = undefined; + } + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (typeof metrics === 'undefined') metrics = ByteBuffer.METRICS_CHARS; + if (!this.noAssert) { + if (typeof length !== 'number' || length % 1 !== 0) + throw TypeError("Illegal length: "+length+" (not an integer)"); + length |= 0; + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + var i = 0, + start = offset, + sd; + if (metrics === ByteBuffer.METRICS_CHARS) { // The same for node and the browser + sd = stringDestination(); + utfx.decodeUTF8(function() { + return i < length && offset < this.limit ? this.view.getUint8(offset++) : null; + }.bind(this), function(cp) { + ++i; utfx.UTF8toUTF16(cp, sd); + }.bind(this)); + if (i !== length) + throw RangeError("Illegal range: Truncated data, "+i+" == "+length); + if (relative) { + this.offset = offset; + return sd(); + } else { + return { + "string": sd(), + "length": offset - start + }; + } + } else if (metrics === ByteBuffer.METRICS_BYTES) { + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + length > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+length+") <= "+this.buffer.byteLength); + } + var k = offset + length; + utfx.decodeUTF8toUTF16(function() { + return offset < k ? this.view.getUint8(offset++) : null; + }.bind(this), sd = stringDestination(), this.noAssert); + if (offset !== k) + throw RangeError("Illegal range: Truncated data, "+offset+" == "+k); + if (relative) { + this.offset = offset; + return sd(); + } else { + return { + 'string': sd(), + 'length': offset - start + }; + } + } else + throw TypeError("Unsupported metrics: "+metrics); + }; + + /** + * Reads an UTF8 encoded string. This is an alias of {@link ByteBuffer#readUTF8String}. + * @function + * @param {number} length Number of characters or bytes to read + * @param {number=} metrics Metrics specifying what `n` is meant to count. Defaults to + * {@link ByteBuffer.METRICS_CHARS}. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {string|!{string: string, length: number}} The string read if offset is omitted, else the string + * read and the actual number of bytes read. + * @expose + */ + ByteBufferPrototype.readString = ByteBufferPrototype.readUTF8String; + + // types/strings/vstring + + /** + * Writes a length as varint32 prefixed UTF8 encoded string. + * @param {string} str String to write + * @param {number=} offset Offset to write to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. + * @returns {!ByteBuffer|number} `this` if `offset` is omitted, else the actual number of bytes written + * @expose + * @see ByteBuffer#writeVarint32 + */ + ByteBufferPrototype.writeVString = function(str, offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + var start = offset, + k, l; + k = utfx.calculateUTF16asUTF8(stringSource(str), this.noAssert)[1]; + l = ByteBuffer.calculateVarint32(k); + offset += l+k; + var capacity15 = this.buffer.byteLength; + if (offset > capacity15) + this.resize((capacity15 *= 2) > offset ? capacity15 : offset); + offset -= l+k; + offset += this.writeVarint32(k, offset); + utfx.encodeUTF16toUTF8(stringSource(str), function(b) { + this.view.setUint8(offset++, b); + }.bind(this)); + if (offset !== start+k+l) + throw RangeError("Illegal range: Truncated data, "+offset+" == "+(offset+k+l)); + if (relative) { + this.offset = offset; + return this; + } + return offset - start; + }; + + /** + * Reads a length as varint32 prefixed UTF8 encoded string. + * @param {number=} offset Offset to read from. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {string|!{string: string, length: number}} The string read if offset is omitted, else the string + * read and the actual number of bytes read. + * @expose + * @see ByteBuffer#readVarint32 + */ + ByteBufferPrototype.readVString = function(offset) { + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 1 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+1+") <= "+this.buffer.byteLength); + } + var temp = this.readVarint32(offset), + start = offset, + str; + offset += temp['length']; + temp = temp['value']; + var k = offset + temp, + sd = stringDestination(); + utfx.decodeUTF8toUTF16(function() { + return offset < k ? this.view.getUint8(offset++) : null; + }.bind(this), sd, this.noAssert); + str = sd(); + if (relative) { + this.offset = offset; + return str; + } else { + return { + 'string': str, + 'length': offset - start + }; + } + }; + + + /** + * Appends some data to this ByteBuffer. This will overwrite any contents behind the specified offset up to the appended + * data's length. + * @param {!ByteBuffer|!ArrayBuffer|!Uint8Array|string} source Data to append. If `source` is a ByteBuffer, its offsets + * will be modified according to the performed read operation. + * @param {(string|number)=} encoding Encoding if `data` is a string ("base64", "hex", "binary", defaults to "utf8") + * @param {number=} offset Offset to append at. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {!ByteBuffer} this + * @expose + * @example A relative `<01 02>03.append(<04 05>)` will result in `<01 02 04 05>, 04 05|` + * @example An absolute `<01 02>03.append(04 05>, 1)` will result in `<01 04>05, 04 05|` + */ + ByteBufferPrototype.append = function(source, encoding, offset) { + if (typeof encoding === 'number' || typeof encoding !== 'string') { + offset = encoding; + encoding = undefined; + } + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + if (!(source instanceof ByteBuffer)) + source = ByteBuffer.wrap(source, encoding); + var length = source.limit - source.offset; + if (length <= 0) return this; // Nothing to append + offset += length; + var capacity16 = this.buffer.byteLength; + if (offset > capacity16) + this.resize((capacity16 *= 2) > offset ? capacity16 : offset); + offset -= length; + new Uint8Array(this.buffer, offset).set(new Uint8Array(source.buffer).subarray(source.offset, source.limit)); + source.offset += length; + if (relative) this.offset += length; + return this; + }; + + /** + * Appends this ByteBuffer's contents to another ByteBuffer. This will overwrite any contents at and after the + specified offset up to the length of this ByteBuffer's data. + * @param {!ByteBuffer} target Target ByteBuffer + * @param {number=} offset Offset to append to. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * read if omitted. + * @returns {!ByteBuffer} this + * @expose + * @see ByteBuffer#append + */ + ByteBufferPrototype.appendTo = function(target, offset) { + target.append(this, offset); + return this; + }; + + /** + * Enables or disables assertions of argument types and offsets. Assertions are enabled by default but you can opt to + * disable them if your code already makes sure that everything is valid. + * @param {boolean} assert `true` to enable assertions, otherwise `false` + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.assert = function(assert) { + this.noAssert = !assert; + return this; + }; + + /** + * Gets the capacity of this ByteBuffer's backing buffer. + * @returns {number} Capacity of the backing buffer + * @expose + */ + ByteBufferPrototype.capacity = function() { + return this.buffer.byteLength; + }; + + /** + * Clears this ByteBuffer's offsets by setting {@link ByteBuffer#offset} to `0` and {@link ByteBuffer#limit} to the + * backing buffer's capacity. Discards {@link ByteBuffer#markedOffset}. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.clear = function() { + this.offset = 0; + this.limit = this.buffer.byteLength; + this.markedOffset = -1; + return this; + }; + + /** + * Creates a cloned instance of this ByteBuffer, preset with this ByteBuffer's values for {@link ByteBuffer#offset}, + * {@link ByteBuffer#markedOffset} and {@link ByteBuffer#limit}. + * @param {boolean=} copy Whether to copy the backing buffer or to return another view on the same, defaults to `false` + * @returns {!ByteBuffer} Cloned instance + * @expose + */ + ByteBufferPrototype.clone = function(copy) { + var bb = new ByteBuffer(0, this.littleEndian, this.noAssert); + if (copy) { + var buffer = new ArrayBuffer(this.buffer.byteLength); + new Uint8Array(buffer).set(this.buffer); + bb.buffer = buffer; + bb.view = new DataView(buffer); + } else { + bb.buffer = this.buffer; + bb.view = this.view; + } + bb.offset = this.offset; + bb.markedOffset = this.markedOffset; + bb.limit = this.limit; + return bb; + }; + + /** + * Compacts this ByteBuffer to be backed by a {@link ByteBuffer#buffer} of its contents' length. Contents are the bytes + * between {@link ByteBuffer#offset} and {@link ByteBuffer#limit}. Will set `offset = 0` and `limit = capacity` and + * adapt {@link ByteBuffer#markedOffset} to the same relative position if set. + * @param {number=} begin Offset to start at, defaults to {@link ByteBuffer#offset} + * @param {number=} end Offset to end at, defaults to {@link ByteBuffer#limit} + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.compact = function(begin, end) { + if (typeof begin === 'undefined') begin = this.offset; + if (typeof end === 'undefined') end = this.limit; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + if (begin === 0 && end === this.buffer.byteLength) + return this; // Already compacted + var len = end - begin; + if (len === 0) { + this.buffer = EMPTY_BUFFER; + this.view = null; + if (this.markedOffset >= 0) this.markedOffset -= begin; + this.offset = 0; + this.limit = 0; + return this; + } + var buffer = new ArrayBuffer(len); + new Uint8Array(buffer).set(new Uint8Array(this.buffer).subarray(begin, end)); + this.buffer = buffer; + this.view = new DataView(buffer); + if (this.markedOffset >= 0) this.markedOffset -= begin; + this.offset = 0; + this.limit = len; + return this; + }; + + /** + * Creates a copy of this ByteBuffer's contents. Contents are the bytes between {@link ByteBuffer#offset} and + * {@link ByteBuffer#limit}. + * @param {number=} begin Begin offset, defaults to {@link ByteBuffer#offset}. + * @param {number=} end End offset, defaults to {@link ByteBuffer#limit}. + * @returns {!ByteBuffer} Copy + * @expose + */ + ByteBufferPrototype.copy = function(begin, end) { + if (typeof begin === 'undefined') begin = this.offset; + if (typeof end === 'undefined') end = this.limit; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + if (begin === end) + return new ByteBuffer(0, this.littleEndian, this.noAssert); + var capacity = end - begin, + bb = new ByteBuffer(capacity, this.littleEndian, this.noAssert); + bb.offset = 0; + bb.limit = capacity; + if (bb.markedOffset >= 0) bb.markedOffset -= begin; + this.copyTo(bb, 0, begin, end); + return bb; + }; + + /** + * Copies this ByteBuffer's contents to another ByteBuffer. Contents are the bytes between {@link ByteBuffer#offset} and + * {@link ByteBuffer#limit}. + * @param {!ByteBuffer} target Target ByteBuffer + * @param {number=} targetOffset Offset to copy to. Will use and increase the target's {@link ByteBuffer#offset} + * by the number of bytes copied if omitted. + * @param {number=} sourceOffset Offset to start copying from. Will use and increase {@link ByteBuffer#offset} by the + * number of bytes copied if omitted. + * @param {number=} sourceLimit Offset to end copying from, defaults to {@link ByteBuffer#limit} + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.copyTo = function(target, targetOffset, sourceOffset, sourceLimit) { + var relative, + targetRelative; + if (!this.noAssert) { + if (!ByteBuffer.isByteBuffer(target)) + throw TypeError("Illegal target: Not a ByteBuffer"); + } + targetOffset = (targetRelative = typeof targetOffset === 'undefined') ? target.offset : targetOffset | 0; + sourceOffset = (relative = typeof sourceOffset === 'undefined') ? this.offset : sourceOffset | 0; + sourceLimit = typeof sourceLimit === 'undefined' ? this.limit : sourceLimit | 0; + + if (targetOffset < 0 || targetOffset > target.buffer.byteLength) + throw RangeError("Illegal target range: 0 <= "+targetOffset+" <= "+target.buffer.byteLength); + if (sourceOffset < 0 || sourceLimit > this.buffer.byteLength) + throw RangeError("Illegal source range: 0 <= "+sourceOffset+" <= "+this.buffer.byteLength); + + var len = sourceLimit - sourceOffset; + if (len === 0) + return target; // Nothing to copy + + target.ensureCapacity(targetOffset + len); + + new Uint8Array(target.buffer).set(new Uint8Array(this.buffer).subarray(sourceOffset, sourceLimit), targetOffset); + + if (relative) this.offset += len; + if (targetRelative) target.offset += len; + + return this; + }; + + /** + * Makes sure that this ByteBuffer is backed by a {@link ByteBuffer#buffer} of at least the specified capacity. If the + * current capacity is exceeded, it will be doubled. If double the current capacity is less than the required capacity, + * the required capacity will be used instead. + * @param {number} capacity Required capacity + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.ensureCapacity = function(capacity) { + var current = this.buffer.byteLength; + if (current < capacity) + return this.resize((current *= 2) > capacity ? current : capacity); + return this; + }; + + /** + * Overwrites this ByteBuffer's contents with the specified value. Contents are the bytes between + * {@link ByteBuffer#offset} and {@link ByteBuffer#limit}. + * @param {number|string} value Byte value to fill with. If given as a string, the first character is used. + * @param {number=} begin Begin offset. Will use and increase {@link ByteBuffer#offset} by the number of bytes + * written if omitted. defaults to {@link ByteBuffer#offset}. + * @param {number=} end End offset, defaults to {@link ByteBuffer#limit}. + * @returns {!ByteBuffer} this + * @expose + * @example `someByteBuffer.clear().fill(0)` fills the entire backing buffer with zeroes + */ + ByteBufferPrototype.fill = function(value, begin, end) { + var relative = typeof begin === 'undefined'; + if (relative) begin = this.offset; + if (typeof value === 'string' && value.length > 0) + value = value.charCodeAt(0); + if (typeof begin === 'undefined') begin = this.offset; + if (typeof end === 'undefined') end = this.limit; + if (!this.noAssert) { + if (typeof value !== 'number' || value % 1 !== 0) + throw TypeError("Illegal value: "+value+" (not an integer)"); + value |= 0; + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + if (begin >= end) + return this; // Nothing to fill + while (begin < end) this.view.setUint8(begin++, value); + if (relative) this.offset = begin; + return this; + }; + + /** + * Makes this ByteBuffer ready for a new sequence of write or relative read operations. Sets `limit = offset` and + * `offset = 0`. Make sure always to flip a ByteBuffer when all relative read or write operations are complete. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.flip = function() { + this.limit = this.offset; + this.offset = 0; + return this; + }; + /** + * Marks an offset on this ByteBuffer to be used later. + * @param {number=} offset Offset to mark. Defaults to {@link ByteBuffer#offset}. + * @returns {!ByteBuffer} this + * @throws {TypeError} If `offset` is not a valid number + * @throws {RangeError} If `offset` is out of bounds + * @see ByteBuffer#reset + * @expose + */ + ByteBufferPrototype.mark = function(offset) { + offset = typeof offset === 'undefined' ? this.offset : offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + this.markedOffset = offset; + return this; + }; + /** + * Sets the byte order. + * @param {boolean} littleEndian `true` for little endian byte order, `false` for big endian + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.order = function(littleEndian) { + if (!this.noAssert) { + if (typeof littleEndian !== 'boolean') + throw TypeError("Illegal littleEndian: Not a boolean"); + } + this.littleEndian = !!littleEndian; + return this; + }; + + /** + * Switches (to) little endian byte order. + * @param {boolean=} littleEndian Defaults to `true`, otherwise uses big endian + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.LE = function(littleEndian) { + this.littleEndian = typeof littleEndian !== 'undefined' ? !!littleEndian : true; + return this; + }; + + /** + * Switches (to) big endian byte order. + * @param {boolean=} bigEndian Defaults to `true`, otherwise uses little endian + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.BE = function(bigEndian) { + this.littleEndian = typeof bigEndian !== 'undefined' ? !bigEndian : false; + return this; + }; + /** + * Prepends some data to this ByteBuffer. This will overwrite any contents before the specified offset up to the + * prepended data's length. If there is not enough space available before the specified `offset`, the backing buffer + * will be resized and its contents moved accordingly. + * @param {!ByteBuffer|string|!ArrayBuffer} source Data to prepend. If `source` is a ByteBuffer, its offset will be + * modified according to the performed read operation. + * @param {(string|number)=} encoding Encoding if `data` is a string ("base64", "hex", "binary", defaults to "utf8") + * @param {number=} offset Offset to prepend at. Will use and decrease {@link ByteBuffer#offset} by the number of bytes + * prepended if omitted. + * @returns {!ByteBuffer} this + * @expose + * @example A relative `00<01 02 03>.prepend(<04 05>)` results in `<04 05 01 02 03>, 04 05|` + * @example An absolute `00<01 02 03>.prepend(<04 05>, 2)` results in `04<05 02 03>, 04 05|` + */ + ByteBufferPrototype.prepend = function(source, encoding, offset) { + if (typeof encoding === 'number' || typeof encoding !== 'string') { + offset = encoding; + encoding = undefined; + } + var relative = typeof offset === 'undefined'; + if (relative) offset = this.offset; + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: "+offset+" (not an integer)"); + offset >>>= 0; + if (offset < 0 || offset + 0 > this.buffer.byteLength) + throw RangeError("Illegal offset: 0 <= "+offset+" (+"+0+") <= "+this.buffer.byteLength); + } + if (!(source instanceof ByteBuffer)) + source = ByteBuffer.wrap(source, encoding); + var len = source.limit - source.offset; + if (len <= 0) return this; // Nothing to prepend + var diff = len - offset; + var arrayView; + if (diff > 0) { // Not enough space before offset, so resize + move + var buffer = new ArrayBuffer(this.buffer.byteLength + diff); + arrayView = new Uint8Array(buffer); + arrayView.set(new Uint8Array(this.buffer).subarray(offset, this.buffer.byteLength), len); + this.buffer = buffer; + this.view = new DataView(buffer); + this.offset += diff; + if (this.markedOffset >= 0) this.markedOffset += diff; + this.limit += diff; + offset += diff; + } else { + arrayView = new Uint8Array(this.buffer); + } + arrayView.set(new Uint8Array(source.buffer).subarray(source.offset, source.limit), offset - len); + source.offset = source.limit; + if (relative) + this.offset -= len; + return this; + }; + + /** + * Prepends this ByteBuffer to another ByteBuffer. This will overwrite any contents before the specified offset up to the + * prepended data's length. If there is not enough space available before the specified `offset`, the backing buffer + * will be resized and its contents moved accordingly. + * @param {!ByteBuffer} target Target ByteBuffer + * @param {number=} offset Offset to prepend at. Will use and decrease {@link ByteBuffer#offset} by the number of bytes + * prepended if omitted. + * @returns {!ByteBuffer} this + * @expose + * @see ByteBuffer#prepend + */ + ByteBufferPrototype.prependTo = function(target, offset) { + target.prepend(this, offset); + return this; + }; + /** + * Prints debug information about this ByteBuffer's contents. + * @param {function(string)=} out Output function to call, defaults to console.log + * @expose + */ + ByteBufferPrototype.printDebug = function(out) { + if (typeof out !== 'function') out = console.log.bind(console); + out( + this.toString()+"\n"+ + "-------------------------------------------------------------------\n"+ + this.toDebug(/* columns */ true) + ); + }; + + /** + * Gets the number of remaining readable bytes. Contents are the bytes between {@link ByteBuffer#offset} and + * {@link ByteBuffer#limit}, so this returns `limit - offset`. + * @returns {number} Remaining readable bytes. May be negative if `offset > limit`. + * @expose + */ + ByteBufferPrototype.remaining = function() { + return this.limit - this.offset; + }; + /** + * Resets this ByteBuffer's {@link ByteBuffer#offset}. If an offset has been marked through {@link ByteBuffer#mark} + * before, `offset` will be set to {@link ByteBuffer#markedOffset}, which will then be discarded. If no offset has been + * marked, sets `offset = 0`. + * @returns {!ByteBuffer} this + * @see ByteBuffer#mark + * @expose + */ + ByteBufferPrototype.reset = function() { + if (this.markedOffset >= 0) { + this.offset = this.markedOffset; + this.markedOffset = -1; + } else { + this.offset = 0; + } + return this; + }; + /** + * Resizes this ByteBuffer to be backed by a buffer of at least the given capacity. Will do nothing if already that + * large or larger. + * @param {number} capacity Capacity required + * @returns {!ByteBuffer} this + * @throws {TypeError} If `capacity` is not a number + * @throws {RangeError} If `capacity < 0` + * @expose + */ + ByteBufferPrototype.resize = function(capacity) { + if (!this.noAssert) { + if (typeof capacity !== 'number' || capacity % 1 !== 0) + throw TypeError("Illegal capacity: "+capacity+" (not an integer)"); + capacity |= 0; + if (capacity < 0) + throw RangeError("Illegal capacity: 0 <= "+capacity); + } + if (this.buffer.byteLength < capacity) { + var buffer = new ArrayBuffer(capacity); + new Uint8Array(buffer).set(new Uint8Array(this.buffer)); + this.buffer = buffer; + this.view = new DataView(buffer); + } + return this; + }; + /** + * Reverses this ByteBuffer's contents. + * @param {number=} begin Offset to start at, defaults to {@link ByteBuffer#offset} + * @param {number=} end Offset to end at, defaults to {@link ByteBuffer#limit} + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.reverse = function(begin, end) { + if (typeof begin === 'undefined') begin = this.offset; + if (typeof end === 'undefined') end = this.limit; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + if (begin === end) + return this; // Nothing to reverse + Array.prototype.reverse.call(new Uint8Array(this.buffer).subarray(begin, end)); + this.view = new DataView(this.buffer); // FIXME: Why exactly is this necessary? + return this; + }; + /** + * Skips the next `length` bytes. This will just advance + * @param {number} length Number of bytes to skip. May also be negative to move the offset back. + * @returns {!ByteBuffer} this + * @expose + */ + ByteBufferPrototype.skip = function(length) { + if (!this.noAssert) { + if (typeof length !== 'number' || length % 1 !== 0) + throw TypeError("Illegal length: "+length+" (not an integer)"); + length |= 0; + } + var offset = this.offset + length; + if (!this.noAssert) { + if (offset < 0 || offset > this.buffer.byteLength) + throw RangeError("Illegal length: 0 <= "+this.offset+" + "+length+" <= "+this.buffer.byteLength); + } + this.offset = offset; + return this; + }; + + /** + * Slices this ByteBuffer by creating a cloned instance with `offset = begin` and `limit = end`. + * @param {number=} begin Begin offset, defaults to {@link ByteBuffer#offset}. + * @param {number=} end End offset, defaults to {@link ByteBuffer#limit}. + * @returns {!ByteBuffer} Clone of this ByteBuffer with slicing applied, backed by the same {@link ByteBuffer#buffer} + * @expose + */ + ByteBufferPrototype.slice = function(begin, end) { + if (typeof begin === 'undefined') begin = this.offset; + if (typeof end === 'undefined') end = this.limit; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + var bb = this.clone(); + bb.offset = begin; + bb.limit = end; + return bb; + }; + /** + * Returns a copy of the backing buffer that contains this ByteBuffer's contents. Contents are the bytes between + * {@link ByteBuffer#offset} and {@link ByteBuffer#limit}. Will transparently {@link ByteBuffer#flip} this + * ByteBuffer if `offset > limit` but the actual offsets remain untouched. + * @param {boolean=} forceCopy If `true` returns a copy, otherwise returns a view referencing the same memory if + * possible. Defaults to `false` + * @returns {!ArrayBuffer} Contents as an ArrayBuffer + * @expose + */ + ByteBufferPrototype.toBuffer = function(forceCopy) { + var offset = this.offset, + limit = this.limit; + if (offset > limit) { + var t = offset; + offset = limit; + limit = t; + } + if (!this.noAssert) { + if (typeof offset !== 'number' || offset % 1 !== 0) + throw TypeError("Illegal offset: Not an integer"); + offset >>>= 0; + if (typeof limit !== 'number' || limit % 1 !== 0) + throw TypeError("Illegal limit: Not an integer"); + limit >>>= 0; + if (offset < 0 || offset > limit || limit > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+offset+" <= "+limit+" <= "+this.buffer.byteLength); + } + // NOTE: It's not possible to have another ArrayBuffer reference the same memory as the backing buffer. This is + // possible with Uint8Array#subarray only, but we have to return an ArrayBuffer by contract. So: + if (!forceCopy && offset === 0 && limit === this.buffer.byteLength) { + return this.buffer; + } + if (offset === limit) { + return EMPTY_BUFFER; + } + var buffer = new ArrayBuffer(limit - offset); + new Uint8Array(buffer).set(new Uint8Array(this.buffer).subarray(offset, limit), 0); + return buffer; + }; + + /** + * Returns a raw buffer compacted to contain this ByteBuffer's contents. Contents are the bytes between + * {@link ByteBuffer#offset} and {@link ByteBuffer#limit}. Will transparently {@link ByteBuffer#flip} this + * ByteBuffer if `offset > limit` but the actual offsets remain untouched. This is an alias of + * {@link ByteBuffer#toBuffer}. + * @function + * @param {boolean=} forceCopy If `true` returns a copy, otherwise returns a view referencing the same memory. + * Defaults to `false` + * @returns {!ArrayBuffer} Contents as an ArrayBuffer + * @expose + */ + ByteBufferPrototype.toArrayBuffer = ByteBufferPrototype.toBuffer; + + + /** + * Converts the ByteBuffer's contents to a string. + * @param {string=} encoding Output encoding. Returns an informative string representation if omitted but also allows + * direct conversion to "utf8", "hex", "base64" and "binary" encoding. "debug" returns a hex representation with + * highlighted offsets. + * @param {number=} begin Offset to begin at, defaults to {@link ByteBuffer#offset} + * @param {number=} end Offset to end at, defaults to {@link ByteBuffer#limit} + * @returns {string} String representation + * @throws {Error} If `encoding` is invalid + * @expose + */ + ByteBufferPrototype.toString = function(encoding, begin, end) { + if (typeof encoding === 'undefined') + return "ByteBufferAB(offset="+this.offset+",markedOffset="+this.markedOffset+",limit="+this.limit+",capacity="+this.capacity()+")"; + if (typeof encoding === 'number') + encoding = "utf8", + begin = encoding, + end = begin; + switch (encoding) { + case "utf8": + return this.toUTF8(begin, end); + case "base64": + return this.toBase64(begin, end); + case "hex": + return this.toHex(begin, end); + case "binary": + return this.toBinary(begin, end); + case "debug": + return this.toDebug(); + case "columns": + return this.toColumns(); + default: + throw Error("Unsupported encoding: "+encoding); + } + }; + + // lxiv-embeddable + + /** + * lxiv-embeddable (c) 2014 Daniel Wirtz + * Released under the Apache License, Version 2.0 + * see: https://github.com/dcodeIO/lxiv for details + */ + var lxiv = function() { + "use strict"; + + /** + * lxiv namespace. + * @type {!Object.} + * @exports lxiv + */ + var lxiv = {}; + + /** + * Character codes for output. + * @type {!Array.} + * @inner + */ + var aout = [ + 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, + 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 97, 98, 99, 100, 101, 102, + 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, + 119, 120, 121, 122, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 43, 47 + ]; + + /** + * Character codes for input. + * @type {!Array.} + * @inner + */ + var ain = []; + for (var i=0, k=aout.length; i>2)&0x3f]); + t = (b&0x3)<<4; + if ((b = src()) !== null) { + t |= (b>>4)&0xf; + dst(aout[(t|((b>>4)&0xf))&0x3f]); + t = (b&0xf)<<2; + if ((b = src()) !== null) + dst(aout[(t|((b>>6)&0x3))&0x3f]), + dst(aout[b&0x3f]); + else + dst(aout[t&0x3f]), + dst(61); + } else + dst(aout[t&0x3f]), + dst(61), + dst(61); + } + }; + + /** + * Decodes base64 char codes to bytes. + * @param {!function():number|null} src Characters source as a function returning the next char code respectively + * `null` if there are no more characters left. + * @param {!function(number)} dst Bytes destination as a function successively called with the next byte. + * @throws {Error} If a character code is invalid + */ + lxiv.decode = function(src, dst) { + var c, t1, t2; + function fail(c) { + throw Error("Illegal character code: "+c); + } + while ((c = src()) !== null) { + t1 = ain[c]; + if (typeof t1 === 'undefined') fail(c); + if ((c = src()) !== null) { + t2 = ain[c]; + if (typeof t2 === 'undefined') fail(c); + dst((t1<<2)>>>0|(t2&0x30)>>4); + if ((c = src()) !== null) { + t1 = ain[c]; + if (typeof t1 === 'undefined') + if (c === 61) break; else fail(c); + dst(((t2&0xf)<<4)>>>0|(t1&0x3c)>>2); + if ((c = src()) !== null) { + t2 = ain[c]; + if (typeof t2 === 'undefined') + if (c === 61) break; else fail(c); + dst(((t1&0x3)<<6)>>>0|t2); + } + } + } + } + }; + + /** + * Tests if a string is valid base64. + * @param {string} str String to test + * @returns {boolean} `true` if valid, otherwise `false` + */ + lxiv.test = function(str) { + return /^(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)?$/.test(str); + }; + + return lxiv; + }(); + + // encodings/base64 + + /** + * Encodes this ByteBuffer's contents to a base64 encoded string. + * @param {number=} begin Offset to begin at, defaults to {@link ByteBuffer#offset}. + * @param {number=} end Offset to end at, defaults to {@link ByteBuffer#limit}. + * @returns {string} Base64 encoded string + * @expose + */ + ByteBufferPrototype.toBase64 = function(begin, end) { + if (typeof begin === 'undefined') + begin = this.offset; + if (typeof end === 'undefined') + end = this.limit; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + var sd; lxiv.encode(function() { + return begin < end ? this.view.getUint8(begin++) : null; + }.bind(this), sd = stringDestination()); + return sd(); + }; + + /** + * Decodes a base64 encoded string to a ByteBuffer. + * @param {string} str String to decode + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} ByteBuffer + * @expose + */ + ByteBuffer.fromBase64 = function(str, littleEndian, noAssert) { + if (!noAssert) { + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + if (str.length % 4 !== 0) + throw TypeError("Illegal str: Length not a multiple of 4"); + } + var bb = new ByteBuffer(str.length/4*3, littleEndian, noAssert), + i = 0; + lxiv.decode(stringSource(str), function(b) { + bb.view.setUint8(i++, b); + }); + bb.limit = i; + return bb; + }; + + /** + * Encodes a binary string to base64 like `window.btoa` does. + * @param {string} str Binary string + * @returns {string} Base64 encoded string + * @see https://developer.mozilla.org/en-US/docs/Web/API/Window.btoa + * @expose + */ + ByteBuffer.btoa = function(str) { + return ByteBuffer.fromBinary(str).toBase64(); + }; + + /** + * Decodes a base64 encoded string to binary like `window.atob` does. + * @param {string} b64 Base64 encoded string + * @returns {string} Binary string + * @see https://developer.mozilla.org/en-US/docs/Web/API/Window.atob + * @expose + */ + ByteBuffer.atob = function(b64) { + return ByteBuffer.fromBase64(b64).toBinary(); + }; + + // encodings/binary + + /** + * Encodes this ByteBuffer to a binary encoded string, that is using only characters 0x00-0xFF as bytes. + * @param {number=} begin Offset to begin at. Defaults to {@link ByteBuffer#offset}. + * @param {number=} end Offset to end at. Defaults to {@link ByteBuffer#limit}. + * @returns {string} Binary encoded string + * @throws {RangeError} If `offset > limit` + * @expose + */ + ByteBufferPrototype.toBinary = function(begin, end) { + begin = typeof begin === 'undefined' ? this.offset : begin; + end = typeof end === 'undefined' ? this.limit : end; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + if (begin === end) + return ""; + var cc = [], pt = []; + while (begin < end) { + cc.push(this.view.getUint8(begin++)); + if (cc.length >= 1024) + pt.push(String.fromCharCode.apply(String, cc)), + cc = []; + } + return pt.join('') + String.fromCharCode.apply(String, cc); + }; + + /** + * Decodes a binary encoded string, that is using only characters 0x00-0xFF as bytes, to a ByteBuffer. + * @param {string} str String to decode + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} ByteBuffer + * @expose + */ + ByteBuffer.fromBinary = function(str, littleEndian, noAssert) { + if (!noAssert) { + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + } + var i = 0, k = str.length, charCode, + bb = new ByteBuffer(k, littleEndian, noAssert); + while (i 255) + throw RangeError("Illegal charCode at "+i+": 0 <= "+charCode+" <= 255"); + bb.view.setUint8(i++, charCode); + } + bb.limit = k; + return bb; + }; + + // encodings/debug + + /** + * Encodes this ByteBuffer to a hex encoded string with marked offsets. Offset symbols are: + * * `<` : offset, + * * `'` : markedOffset, + * * `>` : limit, + * * `|` : offset and limit, + * * `[` : offset and markedOffset, + * * `]` : markedOffset and limit, + * * `!` : offset, markedOffset and limit + * @param {boolean=} columns If `true` returns two columns hex + ascii, defaults to `false` + * @returns {string|!Array.} Debug string or array of lines if `asArray = true` + * @expose + * @example `>00'01 02<03` contains four bytes with `limit=0, markedOffset=1, offset=3` + * @example `00[01 02 03>` contains four bytes with `offset=markedOffset=1, limit=4` + * @example `00|01 02 03` contains four bytes with `offset=limit=1, markedOffset=-1` + * @example `|` contains zero bytes with `offset=limit=0, markedOffset=-1` + */ + ByteBufferPrototype.toDebug = function(columns) { + var i = -1, + k = this.buffer.byteLength, + b, + hex = "", + asc = "", + out = ""; + while (i 32 && b < 127 ? String.fromCharCode(b) : '.'; + } + } + ++i; + if (columns) { + if (i > 0 && i % 16 === 0 && i !== k) { + while (hex.length < 3*16+3) hex += " "; + out += hex+asc+"\n"; + hex = asc = ""; + } + } + if (i === this.offset && i === this.limit) + hex += i === this.markedOffset ? "!" : "|"; + else if (i === this.offset) + hex += i === this.markedOffset ? "[" : "<"; + else if (i === this.limit) + hex += i === this.markedOffset ? "]" : ">"; + else + hex += i === this.markedOffset ? "'" : (columns || (i !== 0 && i !== k) ? " " : ""); + } + if (columns && hex !== " ") { + while (hex.length < 3*16+3) hex += " "; + out += hex+asc+"\n"; + } + return columns ? out : hex; + }; + + /** + * Decodes a hex encoded string with marked offsets to a ByteBuffer. + * @param {string} str Debug string to decode (not be generated with `columns = true`) + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} ByteBuffer + * @expose + * @see ByteBuffer#toDebug + */ + ByteBuffer.fromDebug = function(str, littleEndian, noAssert) { + var k = str.length, + bb = new ByteBuffer(((k+1)/3)|0, littleEndian, noAssert); + var i = 0, j = 0, ch, b, + rs = false, // Require symbol next + ho = false, hm = false, hl = false, // Already has offset, markedOffset, limit? + fail = false; + while (i': + if (!noAssert) { + if (hl) { + fail = true; break; + } + hl = true; + } + bb.limit = j; + rs = false; + break; + case "'": + if (!noAssert) { + if (hm) { + fail = true; break; + } + hm = true; + } + bb.markedOffset = j; + rs = false; + break; + case ' ': + rs = false; + break; + default: + if (!noAssert) { + if (rs) { + fail = true; break; + } + } + b = parseInt(ch+str.charAt(i++), 16); + if (!noAssert) { + if (isNaN(b) || b < 0 || b > 255) + throw TypeError("Illegal str: Not a debug encoded string"); + } + bb.view.setUint8(j++, b); + rs = true; + } + if (fail) + throw TypeError("Illegal str: Invalid symbol at "+i); + } + if (!noAssert) { + if (!ho || !hl) + throw TypeError("Illegal str: Missing offset or limit"); + if (j>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + var out = new Array(end - begin), + b; + while (begin < end) { + b = this.view.getUint8(begin++); + if (b < 0x10) + out.push("0", b.toString(16)); + else out.push(b.toString(16)); + } + return out.join(''); + }; + + /** + * Decodes a hex encoded string to a ByteBuffer. + * @param {string} str String to decode + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} ByteBuffer + * @expose + */ + ByteBuffer.fromHex = function(str, littleEndian, noAssert) { + if (!noAssert) { + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + if (str.length % 2 !== 0) + throw TypeError("Illegal str: Length not a multiple of 2"); + } + var k = str.length, + bb = new ByteBuffer((k / 2) | 0, littleEndian), + b; + for (var i=0, j=0; i 255) + throw TypeError("Illegal str: Contains non-hex characters"); + bb.view.setUint8(j++, b); + } + bb.limit = j; + return bb; + }; + + // utfx-embeddable + + /** + * utfx-embeddable (c) 2014 Daniel Wirtz + * Released under the Apache License, Version 2.0 + * see: https://github.com/dcodeIO/utfx for details + */ + var utfx = function() { + "use strict"; + + /** + * utfx namespace. + * @inner + * @type {!Object.} + */ + var utfx = {}; + + /** + * Maximum valid code point. + * @type {number} + * @const + */ + utfx.MAX_CODEPOINT = 0x10FFFF; + + /** + * Encodes UTF8 code points to UTF8 bytes. + * @param {(!function():number|null) | number} src Code points source, either as a function returning the next code point + * respectively `null` if there are no more code points left or a single numeric code point. + * @param {!function(number)} dst Bytes destination as a function successively called with the next byte + */ + utfx.encodeUTF8 = function(src, dst) { + var cp = null; + if (typeof src === 'number') + cp = src, + src = function() { return null; }; + while (cp !== null || (cp = src()) !== null) { + if (cp < 0x80) + dst(cp&0x7F); + else if (cp < 0x800) + dst(((cp>>6)&0x1F)|0xC0), + dst((cp&0x3F)|0x80); + else if (cp < 0x10000) + dst(((cp>>12)&0x0F)|0xE0), + dst(((cp>>6)&0x3F)|0x80), + dst((cp&0x3F)|0x80); + else + dst(((cp>>18)&0x07)|0xF0), + dst(((cp>>12)&0x3F)|0x80), + dst(((cp>>6)&0x3F)|0x80), + dst((cp&0x3F)|0x80); + cp = null; + } + }; + + /** + * Decodes UTF8 bytes to UTF8 code points. + * @param {!function():number|null} src Bytes source as a function returning the next byte respectively `null` if there + * are no more bytes left. + * @param {!function(number)} dst Code points destination as a function successively called with each decoded code point. + * @throws {RangeError} If a starting byte is invalid in UTF8 + * @throws {Error} If the last sequence is truncated. Has an array property `bytes` holding the + * remaining bytes. + */ + utfx.decodeUTF8 = function(src, dst) { + var a, b, c, d, fail = function(b) { + b = b.slice(0, b.indexOf(null)); + var err = Error(b.toString()); + err.name = "TruncatedError"; + err['bytes'] = b; + throw err; + }; + while ((a = src()) !== null) { + if ((a&0x80) === 0) + dst(a); + else if ((a&0xE0) === 0xC0) + ((b = src()) === null) && fail([a, b]), + dst(((a&0x1F)<<6) | (b&0x3F)); + else if ((a&0xF0) === 0xE0) + ((b=src()) === null || (c=src()) === null) && fail([a, b, c]), + dst(((a&0x0F)<<12) | ((b&0x3F)<<6) | (c&0x3F)); + else if ((a&0xF8) === 0xF0) + ((b=src()) === null || (c=src()) === null || (d=src()) === null) && fail([a, b, c ,d]), + dst(((a&0x07)<<18) | ((b&0x3F)<<12) | ((c&0x3F)<<6) | (d&0x3F)); + else throw RangeError("Illegal starting byte: "+a); + } + }; + + /** + * Converts UTF16 characters to UTF8 code points. + * @param {!function():number|null} src Characters source as a function returning the next char code respectively + * `null` if there are no more characters left. + * @param {!function(number)} dst Code points destination as a function successively called with each converted code + * point. + */ + utfx.UTF16toUTF8 = function(src, dst) { + var c1, c2 = null; + while (true) { + if ((c1 = c2 !== null ? c2 : src()) === null) + break; + if (c1 >= 0xD800 && c1 <= 0xDFFF) { + if ((c2 = src()) !== null) { + if (c2 >= 0xDC00 && c2 <= 0xDFFF) { + dst((c1-0xD800)*0x400+c2-0xDC00+0x10000); + c2 = null; continue; + } + } + } + dst(c1); + } + if (c2 !== null) dst(c2); + }; + + /** + * Converts UTF8 code points to UTF16 characters. + * @param {(!function():number|null) | number} src Code points source, either as a function returning the next code point + * respectively `null` if there are no more code points left or a single numeric code point. + * @param {!function(number)} dst Characters destination as a function successively called with each converted char code. + * @throws {RangeError} If a code point is out of range + */ + utfx.UTF8toUTF16 = function(src, dst) { + var cp = null; + if (typeof src === 'number') + cp = src, src = function() { return null; }; + while (cp !== null || (cp = src()) !== null) { + if (cp <= 0xFFFF) + dst(cp); + else + cp -= 0x10000, + dst((cp>>10)+0xD800), + dst((cp%0x400)+0xDC00); + cp = null; + } + }; + + /** + * Converts and encodes UTF16 characters to UTF8 bytes. + * @param {!function():number|null} src Characters source as a function returning the next char code respectively `null` + * if there are no more characters left. + * @param {!function(number)} dst Bytes destination as a function successively called with the next byte. + */ + utfx.encodeUTF16toUTF8 = function(src, dst) { + utfx.UTF16toUTF8(src, function(cp) { + utfx.encodeUTF8(cp, dst); + }); + }; + + /** + * Decodes and converts UTF8 bytes to UTF16 characters. + * @param {!function():number|null} src Bytes source as a function returning the next byte respectively `null` if there + * are no more bytes left. + * @param {!function(number)} dst Characters destination as a function successively called with each converted char code. + * @throws {RangeError} If a starting byte is invalid in UTF8 + * @throws {Error} If the last sequence is truncated. Has an array property `bytes` holding the remaining bytes. + */ + utfx.decodeUTF8toUTF16 = function(src, dst) { + utfx.decodeUTF8(src, function(cp) { + utfx.UTF8toUTF16(cp, dst); + }); + }; + + /** + * Calculates the byte length of an UTF8 code point. + * @param {number} cp UTF8 code point + * @returns {number} Byte length + */ + utfx.calculateCodePoint = function(cp) { + return (cp < 0x80) ? 1 : (cp < 0x800) ? 2 : (cp < 0x10000) ? 3 : 4; + }; + + /** + * Calculates the number of UTF8 bytes required to store UTF8 code points. + * @param {(!function():number|null)} src Code points source as a function returning the next code point respectively + * `null` if there are no more code points left. + * @returns {number} The number of UTF8 bytes required + */ + utfx.calculateUTF8 = function(src) { + var cp, l=0; + while ((cp = src()) !== null) + l += utfx.calculateCodePoint(cp); + return l; + }; + + /** + * Calculates the number of UTF8 code points respectively UTF8 bytes required to store UTF16 char codes. + * @param {(!function():number|null)} src Characters source as a function returning the next char code respectively + * `null` if there are no more characters left. + * @returns {!Array.} The number of UTF8 code points at index 0 and the number of UTF8 bytes required at index 1. + */ + utfx.calculateUTF16asUTF8 = function(src) { + var n=0, l=0; + utfx.UTF16toUTF8(src, function(cp) { + ++n; l += utfx.calculateCodePoint(cp); + }); + return [n,l]; + }; + + return utfx; + }(); + + // encodings/utf8 + + /** + * Encodes this ByteBuffer's contents between {@link ByteBuffer#offset} and {@link ByteBuffer#limit} to an UTF8 encoded + * string. + * @returns {string} Hex encoded string + * @throws {RangeError} If `offset > limit` + * @expose + */ + ByteBufferPrototype.toUTF8 = function(begin, end) { + if (typeof begin === 'undefined') begin = this.offset; + if (typeof end === 'undefined') end = this.limit; + if (!this.noAssert) { + if (typeof begin !== 'number' || begin % 1 !== 0) + throw TypeError("Illegal begin: Not an integer"); + begin >>>= 0; + if (typeof end !== 'number' || end % 1 !== 0) + throw TypeError("Illegal end: Not an integer"); + end >>>= 0; + if (begin < 0 || begin > end || end > this.buffer.byteLength) + throw RangeError("Illegal range: 0 <= "+begin+" <= "+end+" <= "+this.buffer.byteLength); + } + var sd; try { + utfx.decodeUTF8toUTF16(function() { + return begin < end ? this.view.getUint8(begin++) : null; + }.bind(this), sd = stringDestination()); + } catch (e) { + if (begin !== end) + throw RangeError("Illegal range: Truncated data, "+begin+" != "+end); + } + return sd(); + }; + + /** + * Decodes an UTF8 encoded string to a ByteBuffer. + * @param {string} str String to decode + * @param {boolean=} littleEndian Whether to use little or big endian byte order. Defaults to + * {@link ByteBuffer.DEFAULT_ENDIAN}. + * @param {boolean=} noAssert Whether to skip assertions of offsets and values. Defaults to + * {@link ByteBuffer.DEFAULT_NOASSERT}. + * @returns {!ByteBuffer} ByteBuffer + * @expose + */ + ByteBuffer.fromUTF8 = function(str, littleEndian, noAssert) { + if (!noAssert) + if (typeof str !== 'string') + throw TypeError("Illegal str: Not a string"); + var bb = new ByteBuffer(utfx.calculateUTF16asUTF8(stringSource(str), true)[1], littleEndian, noAssert), + i = 0; + utfx.encodeUTF16toUTF8(stringSource(str), function(b) { + bb.view.setUint8(i++, b); + }); + bb.limit = i; + return bb; + }; + + + return ByteBuffer; + } + + /* CommonJS */ if (typeof require === 'function' && typeof module === 'object' && module && typeof exports === 'object' && exports) + module['exports'] = (function() { + var Long; try { Long = require("long"); } catch (e) {} + return loadByteBuffer(Long); + })(); + /* AMD */ else if (typeof define === 'function' && define["amd"]) + define("ByteBuffer", ["Long"], function(Long) { return loadByteBuffer(Long); }); + /* Global */ else + (global["dcodeIO"] = global["dcodeIO"] || {})["ByteBuffer"] = loadByteBuffer(global["dcodeIO"]["Long"]); + +})(this); + +/* + Copyright 2013 Daniel Wirtz + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. + */ + +/** + * @license protobuf.js (c) 2013 Daniel Wirtz + * Released under the Apache License, Version 2.0 + * see: https://github.com/dcodeIO/protobuf.js for details + */ +(function(global, factory) { + + /* AMD */ if (typeof define === 'function' && define["amd"]) + define(["bytebuffer"], factory); + /* CommonJS */ else if (typeof require === "function" && typeof module === "object" && module && module["exports"]) + module["exports"] = factory(require("bytebuffer"), true); + /* Global */ else + (global["dcodeIO"] = global["dcodeIO"] || {})["ProtoBuf"] = factory(global["dcodeIO"]["ByteBuffer"]); + +})(this, function(ByteBuffer, isCommonJS) { + "use strict"; + + /** + * The ProtoBuf namespace. + * @exports ProtoBuf + * @namespace + * @expose + */ + var ProtoBuf = {}; + + /** + * @type {!function(new: ByteBuffer, ...[*])} + * @expose + */ + ProtoBuf.ByteBuffer = ByteBuffer; + + /** + * @type {?function(new: Long, ...[*])} + * @expose + */ + ProtoBuf.Long = ByteBuffer.Long || null; + + /** + * ProtoBuf.js version. + * @type {string} + * @const + * @expose + */ + ProtoBuf.VERSION = "5.0.1"; + + /** + * Wire types. + * @type {Object.} + * @const + * @expose + */ + ProtoBuf.WIRE_TYPES = {}; + + /** + * Varint wire type. + * @type {number} + * @expose + */ + ProtoBuf.WIRE_TYPES.VARINT = 0; + + /** + * Fixed 64 bits wire type. + * @type {number} + * @const + * @expose + */ + ProtoBuf.WIRE_TYPES.BITS64 = 1; + + /** + * Length delimited wire type. + * @type {number} + * @const + * @expose + */ + ProtoBuf.WIRE_TYPES.LDELIM = 2; + + /** + * Start group wire type. + * @type {number} + * @const + * @expose + */ + ProtoBuf.WIRE_TYPES.STARTGROUP = 3; + + /** + * End group wire type. + * @type {number} + * @const + * @expose + */ + ProtoBuf.WIRE_TYPES.ENDGROUP = 4; + + /** + * Fixed 32 bits wire type. + * @type {number} + * @const + * @expose + */ + ProtoBuf.WIRE_TYPES.BITS32 = 5; + + /** + * Packable wire types. + * @type {!Array.} + * @const + * @expose + */ + ProtoBuf.PACKABLE_WIRE_TYPES = [ + ProtoBuf.WIRE_TYPES.VARINT, + ProtoBuf.WIRE_TYPES.BITS64, + ProtoBuf.WIRE_TYPES.BITS32 + ]; + + /** + * Types. + * @dict + * @type {!Object.} + * @const + * @expose + */ + ProtoBuf.TYPES = { + // According to the protobuf spec. + "int32": { + name: "int32", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: 0 + }, + "uint32": { + name: "uint32", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: 0 + }, + "sint32": { + name: "sint32", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: 0 + }, + "int64": { + name: "int64", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: ProtoBuf.Long ? ProtoBuf.Long.ZERO : undefined + }, + "uint64": { + name: "uint64", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: ProtoBuf.Long ? ProtoBuf.Long.UZERO : undefined + }, + "sint64": { + name: "sint64", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: ProtoBuf.Long ? ProtoBuf.Long.ZERO : undefined + }, + "bool": { + name: "bool", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: false + }, + "double": { + name: "double", + wireType: ProtoBuf.WIRE_TYPES.BITS64, + defaultValue: 0 + }, + "string": { + name: "string", + wireType: ProtoBuf.WIRE_TYPES.LDELIM, + defaultValue: "" + }, + "bytes": { + name: "bytes", + wireType: ProtoBuf.WIRE_TYPES.LDELIM, + defaultValue: null // overridden in the code, must be a unique instance + }, + "fixed32": { + name: "fixed32", + wireType: ProtoBuf.WIRE_TYPES.BITS32, + defaultValue: 0 + }, + "sfixed32": { + name: "sfixed32", + wireType: ProtoBuf.WIRE_TYPES.BITS32, + defaultValue: 0 + }, + "fixed64": { + name: "fixed64", + wireType: ProtoBuf.WIRE_TYPES.BITS64, + defaultValue: ProtoBuf.Long ? ProtoBuf.Long.UZERO : undefined + }, + "sfixed64": { + name: "sfixed64", + wireType: ProtoBuf.WIRE_TYPES.BITS64, + defaultValue: ProtoBuf.Long ? ProtoBuf.Long.ZERO : undefined + }, + "float": { + name: "float", + wireType: ProtoBuf.WIRE_TYPES.BITS32, + defaultValue: 0 + }, + "enum": { + name: "enum", + wireType: ProtoBuf.WIRE_TYPES.VARINT, + defaultValue: 0 + }, + "message": { + name: "message", + wireType: ProtoBuf.WIRE_TYPES.LDELIM, + defaultValue: null + }, + "group": { + name: "group", + wireType: ProtoBuf.WIRE_TYPES.STARTGROUP, + defaultValue: null + } + }; + + /** + * Valid map key types. + * @type {!Array.>} + * @const + * @expose + */ + ProtoBuf.MAP_KEY_TYPES = [ + ProtoBuf.TYPES["int32"], + ProtoBuf.TYPES["sint32"], + ProtoBuf.TYPES["sfixed32"], + ProtoBuf.TYPES["uint32"], + ProtoBuf.TYPES["fixed32"], + ProtoBuf.TYPES["int64"], + ProtoBuf.TYPES["sint64"], + ProtoBuf.TYPES["sfixed64"], + ProtoBuf.TYPES["uint64"], + ProtoBuf.TYPES["fixed64"], + ProtoBuf.TYPES["bool"], + ProtoBuf.TYPES["string"], + ProtoBuf.TYPES["bytes"] + ]; + + /** + * Minimum field id. + * @type {number} + * @const + * @expose + */ + ProtoBuf.ID_MIN = 1; + + /** + * Maximum field id. + * @type {number} + * @const + * @expose + */ + ProtoBuf.ID_MAX = 0x1FFFFFFF; + + /** + * If set to `true`, field names will be converted from underscore notation to camel case. Defaults to `false`. + * Must be set prior to parsing. + * @type {boolean} + * @expose + */ + ProtoBuf.convertFieldsToCamelCase = false; + + /** + * By default, messages are populated with (setX, set_x) accessors for each field. This can be disabled by + * setting this to `false` prior to building messages. + * @type {boolean} + * @expose + */ + ProtoBuf.populateAccessors = true; + + /** + * By default, messages are populated with default values if a field is not present on the wire. To disable + * this behavior, set this setting to `false`. + * @type {boolean} + * @expose + */ + ProtoBuf.populateDefaults = true; + + /** + * @alias ProtoBuf.Util + * @expose + */ + ProtoBuf.Util = (function() { + "use strict"; + + /** + * ProtoBuf utilities. + * @exports ProtoBuf.Util + * @namespace + */ + var Util = {}; + + /** + * Flag if running in node or not. + * @type {boolean} + * @const + * @expose + */ + Util.IS_NODE = !!( + typeof process === 'object' && process+'' === '[object process]' && !process['browser'] + ); + + /** + * Constructs a XMLHttpRequest object. + * @return {XMLHttpRequest} + * @throws {Error} If XMLHttpRequest is not supported + * @expose + */ + Util.XHR = function() { + // No dependencies please, ref: http://www.quirksmode.org/js/xmlhttp.html + var XMLHttpFactories = [ + function () {return new XMLHttpRequest()}, + function () {return new ActiveXObject("Msxml2.XMLHTTP")}, + function () {return new ActiveXObject("Msxml3.XMLHTTP")}, + function () {return new ActiveXObject("Microsoft.XMLHTTP")} + ]; + /** @type {?XMLHttpRequest} */ + var xhr = null; + for (var i=0;i} + * @expose + */ + ProtoBuf.Lang = { + + // Characters always ending a statement + DELIM: /[\s\{\}=;:\[\],'"\(\)<>]/g, + + // Field rules + RULE: /^(?:required|optional|repeated|map)$/, + + // Field types + TYPE: /^(?:double|float|int32|uint32|sint32|int64|uint64|sint64|fixed32|sfixed32|fixed64|sfixed64|bool|string|bytes)$/, + + // Names + NAME: /^[a-zA-Z_][a-zA-Z_0-9]*$/, + + // Type definitions + TYPEDEF: /^[a-zA-Z][a-zA-Z_0-9]*$/, + + // Type references + TYPEREF: /^(?:\.?[a-zA-Z_][a-zA-Z_0-9]*)+$/, + + // Fully qualified type references + FQTYPEREF: /^(?:\.[a-zA-Z][a-zA-Z_0-9]*)+$/, + + // All numbers + NUMBER: /^-?(?:[1-9][0-9]*|0|0[xX][0-9a-fA-F]+|0[0-7]+|([0-9]*(\.[0-9]*)?([Ee][+-]?[0-9]+)?)|inf|nan)$/, + + // Decimal numbers + NUMBER_DEC: /^(?:[1-9][0-9]*|0)$/, + + // Hexadecimal numbers + NUMBER_HEX: /^0[xX][0-9a-fA-F]+$/, + + // Octal numbers + NUMBER_OCT: /^0[0-7]+$/, + + // Floating point numbers + NUMBER_FLT: /^([0-9]*(\.[0-9]*)?([Ee][+-]?[0-9]+)?|inf|nan)$/, + + // Booleans + BOOL: /^(?:true|false)$/i, + + // Id numbers + ID: /^(?:[1-9][0-9]*|0|0[xX][0-9a-fA-F]+|0[0-7]+)$/, + + // Negative id numbers (enum values) + NEGID: /^\-?(?:[1-9][0-9]*|0|0[xX][0-9a-fA-F]+|0[0-7]+)$/, + + // Whitespaces + WHITESPACE: /\s/, + + // All strings + STRING: /(?:"([^"\\]*(?:\\.[^"\\]*)*)")|(?:'([^'\\]*(?:\\.[^'\\]*)*)')/g, + + // Double quoted strings + STRING_DQ: /(?:"([^"\\]*(?:\\.[^"\\]*)*)")/g, + + // Single quoted strings + STRING_SQ: /(?:'([^'\\]*(?:\\.[^'\\]*)*)')/g + }; + + /** + * @alias ProtoBuf.DotProto + * @expose + */ + ProtoBuf.DotProto = (function(ProtoBuf, Lang) { + "use strict"; + + /** + * Utilities to parse .proto files. + * @exports ProtoBuf.DotProto + * @namespace + */ + var DotProto = {}; + + /** + * Constructs a new Tokenizer. + * @exports ProtoBuf.DotProto.Tokenizer + * @class prototype tokenizer + * @param {string} proto Proto to tokenize + * @constructor + */ + var Tokenizer = function(proto) { + + /** + * Source to parse. + * @type {string} + * @expose + */ + this.source = proto+""; + + /** + * Current index. + * @type {number} + * @expose + */ + this.index = 0; + + /** + * Current line. + * @type {number} + * @expose + */ + this.line = 1; + + /** + * Token stack. + * @type {!Array.} + * @expose + */ + this.stack = []; + + /** + * Opening character of the current string read, if any. + * @type {?string} + * @private + */ + this._stringOpen = null; + }; + + /** + * @alias ProtoBuf.DotProto.Tokenizer.prototype + * @inner + */ + var TokenizerPrototype = Tokenizer.prototype; + + /** + * Reads a string beginning at the current index. + * @return {string} + * @private + */ + TokenizerPrototype._readString = function() { + var re = this._stringOpen === '"' + ? Lang.STRING_DQ + : Lang.STRING_SQ; + re.lastIndex = this.index - 1; // Include the open quote + var match = re.exec(this.source); + if (!match) + throw Error("unterminated string"); + this.index = re.lastIndex; + this.stack.push(this._stringOpen); + this._stringOpen = null; + return match[1]; + }; + + /** + * Gets the next token and advances by one. + * @return {?string} Token or `null` on EOF + * @expose + */ + TokenizerPrototype.next = function() { + if (this.stack.length > 0) + return this.stack.shift(); + if (this.index >= this.source.length) + return null; + if (this._stringOpen !== null) + return this._readString(); + + var repeat, + prev, + next; + do { + repeat = false; + + // Strip white spaces + while (Lang.WHITESPACE.test(next = this.source.charAt(this.index))) { + if (next === '\n') + ++this.line; + if (++this.index === this.source.length) + return null; + } + + // Strip comments + if (this.source.charAt(this.index) === '/') { + ++this.index; + if (this.source.charAt(this.index) === '/') { // Line + while (this.source.charAt(++this.index) !== '\n') + if (this.index == this.source.length) + return null; + ++this.index; + ++this.line; + repeat = true; + } else if ((next = this.source.charAt(this.index)) === '*') { /* Block */ + do { + if (next === '\n') + ++this.line; + if (++this.index === this.source.length) + return null; + prev = next; + next = this.source.charAt(this.index); + } while (prev !== '*' || next !== '/'); + ++this.index; + repeat = true; + } else + return '/'; + } + } while (repeat); + + if (this.index === this.source.length) + return null; + + // Read the next token + var end = this.index; + Lang.DELIM.lastIndex = 0; + var delim = Lang.DELIM.test(this.source.charAt(end++)); + if (!delim) + while(end < this.source.length && !Lang.DELIM.test(this.source.charAt(end))) + ++end; + var token = this.source.substring(this.index, this.index = end); + if (token === '"' || token === "'") + this._stringOpen = token; + return token; + }; + + /** + * Peeks for the next token. + * @return {?string} Token or `null` on EOF + * @expose + */ + TokenizerPrototype.peek = function() { + if (this.stack.length === 0) { + var token = this.next(); + if (token === null) + return null; + this.stack.push(token); + } + return this.stack[0]; + }; + + /** + * Skips a specific token and throws if it differs. + * @param {string} expected Expected token + * @throws {Error} If the actual token differs + */ + TokenizerPrototype.skip = function(expected) { + var actual = this.next(); + if (actual !== expected) + throw Error("illegal '"+actual+"', '"+expected+"' expected"); + }; + + /** + * Omits an optional token. + * @param {string} expected Expected optional token + * @returns {boolean} `true` if the token exists + */ + TokenizerPrototype.omit = function(expected) { + if (this.peek() === expected) { + this.next(); + return true; + } + return false; + }; + + /** + * Returns a string representation of this object. + * @return {string} String representation as of "Tokenizer(index/length)" + * @expose + */ + TokenizerPrototype.toString = function() { + return "Tokenizer ("+this.index+"/"+this.source.length+" at line "+this.line+")"; + }; + + /** + * @alias ProtoBuf.DotProto.Tokenizer + * @expose + */ + DotProto.Tokenizer = Tokenizer; + + /** + * Constructs a new Parser. + * @exports ProtoBuf.DotProto.Parser + * @class prototype parser + * @param {string} source Source + * @constructor + */ + var Parser = function(source) { + + /** + * Tokenizer. + * @type {!ProtoBuf.DotProto.Tokenizer} + * @expose + */ + this.tn = new Tokenizer(source); + + /** + * Whether parsing proto3 or not. + * @type {boolean} + */ + this.proto3 = false; + }; + + /** + * @alias ProtoBuf.DotProto.Parser.prototype + * @inner + */ + var ParserPrototype = Parser.prototype; + + /** + * Parses the source. + * @returns {!Object} + * @throws {Error} If the source cannot be parsed + * @expose + */ + ParserPrototype.parse = function() { + var topLevel = { + "name": "[ROOT]", // temporary + "package": null, + "messages": [], + "enums": [], + "imports": [], + "options": {}, + "services": [] + // "syntax": undefined + }; + var token, + head = true, + weak; + try { + while (token = this.tn.next()) { + switch (token) { + case 'package': + if (!head || topLevel["package"] !== null) + throw Error("unexpected 'package'"); + token = this.tn.next(); + if (!Lang.TYPEREF.test(token)) + throw Error("illegal package name: " + token); + this.tn.skip(";"); + topLevel["package"] = token; + break; + case 'import': + if (!head) + throw Error("unexpected 'import'"); + token = this.tn.peek(); + if (token === "public" || (weak = token === "weak")) // token ignored + this.tn.next(); + token = this._readString(); + this.tn.skip(";"); + if (!weak) // import ignored + topLevel["imports"].push(token); + break; + case 'syntax': + if (!head) + throw Error("unexpected 'syntax'"); + this.tn.skip("="); + if ((topLevel["syntax"] = this._readString()) === "proto3") + this.proto3 = true; + this.tn.skip(";"); + break; + case 'message': + this._parseMessage(topLevel, null); + head = false; + break; + case 'enum': + this._parseEnum(topLevel); + head = false; + break; + case 'option': + this._parseOption(topLevel); + break; + case 'service': + this._parseService(topLevel); + break; + case 'extend': + this._parseExtend(topLevel); + break; + default: + throw Error("unexpected '" + token + "'"); + } + } + } catch (e) { + e.message = "Parse error at line "+this.tn.line+": " + e.message; + throw e; + } + delete topLevel["name"]; + return topLevel; + }; + + /** + * Parses the specified source. + * @returns {!Object} + * @throws {Error} If the source cannot be parsed + * @expose + */ + Parser.parse = function(source) { + return new Parser(source).parse(); + }; + + // ----- Conversion ------ + + /** + * Converts a numerical string to an id. + * @param {string} value + * @param {boolean=} mayBeNegative + * @returns {number} + * @inner + */ + function mkId(value, mayBeNegative) { + var id = -1, + sign = 1; + if (value.charAt(0) == '-') { + sign = -1; + value = value.substring(1); + } + if (Lang.NUMBER_DEC.test(value)) + id = parseInt(value); + else if (Lang.NUMBER_HEX.test(value)) + id = parseInt(value.substring(2), 16); + else if (Lang.NUMBER_OCT.test(value)) + id = parseInt(value.substring(1), 8); + else + throw Error("illegal id value: " + (sign < 0 ? '-' : '') + value); + id = (sign*id)|0; // Force to 32bit + if (!mayBeNegative && id < 0) + throw Error("illegal id value: " + (sign < 0 ? '-' : '') + value); + return id; + } + + /** + * Converts a numerical string to a number. + * @param {string} val + * @returns {number} + * @inner + */ + function mkNumber(val) { + var sign = 1; + if (val.charAt(0) == '-') { + sign = -1; + val = val.substring(1); + } + if (Lang.NUMBER_DEC.test(val)) + return sign * parseInt(val, 10); + else if (Lang.NUMBER_HEX.test(val)) + return sign * parseInt(val.substring(2), 16); + else if (Lang.NUMBER_OCT.test(val)) + return sign * parseInt(val.substring(1), 8); + else if (val === 'inf') + return sign * Infinity; + else if (val === 'nan') + return NaN; + else if (Lang.NUMBER_FLT.test(val)) + return sign * parseFloat(val); + throw Error("illegal number value: " + (sign < 0 ? '-' : '') + val); + } + + // ----- Reading ------ + + /** + * Reads a string. + * @returns {string} + * @private + */ + ParserPrototype._readString = function() { + var value = "", + token, + delim; + do { + delim = this.tn.next(); + if (delim !== "'" && delim !== '"') + throw Error("illegal string delimiter: "+delim); + value += this.tn.next(); + this.tn.skip(delim); + token = this.tn.peek(); + } while (token === '"' || token === '"'); // multi line? + return value; + }; + + /** + * Reads a value. + * @param {boolean=} mayBeTypeRef + * @returns {number|boolean|string} + * @private + */ + ParserPrototype._readValue = function(mayBeTypeRef) { + var token = this.tn.peek(), + value; + if (token === '"' || token === "'") + return this._readString(); + this.tn.next(); + if (Lang.NUMBER.test(token)) + return mkNumber(token); + if (Lang.BOOL.test(token)) + return (token.toLowerCase() === 'true'); + if (mayBeTypeRef && Lang.TYPEREF.test(token)) + return token; + throw Error("illegal value: "+token); + + }; + + // ----- Parsing constructs ----- + + /** + * Parses a namespace option. + * @param {!Object} parent Parent definition + * @param {boolean=} isList + * @private + */ + ParserPrototype._parseOption = function(parent, isList) { + var token = this.tn.next(), + custom = false; + if (token === '(') { + custom = true; + token = this.tn.next(); + } + if (!Lang.TYPEREF.test(token)) + // we can allow options of the form google.protobuf.* since they will just get ignored anyways + // if (!/google\.protobuf\./.test(token)) // FIXME: Why should that not be a valid typeref? + throw Error("illegal option name: "+token); + var name = token; + if (custom) { // (my_method_option).foo, (my_method_option), some_method_option, (foo.my_option).bar + this.tn.skip(')'); + name = '('+name+')'; + token = this.tn.peek(); + if (Lang.FQTYPEREF.test(token)) { + name += token; + this.tn.next(); + } + } + this.tn.skip('='); + this._parseOptionValue(parent, name); + if (!isList) + this.tn.skip(";"); + }; + + /** + * Sets an option on the specified options object. + * @param {!Object.} options + * @param {string} name + * @param {string|number|boolean} value + * @inner + */ + function setOption(options, name, value) { + if (typeof options[name] === 'undefined') + options[name] = value; + else { + if (!Array.isArray(options[name])) + options[name] = [ options[name] ]; + options[name].push(value); + } + } + + /** + * Parses an option value. + * @param {!Object} parent + * @param {string} name + * @private + */ + ParserPrototype._parseOptionValue = function(parent, name) { + var token = this.tn.peek(); + if (token !== '{') { // Plain value + setOption(parent["options"], name, this._readValue(true)); + } else { // Aggregate options + this.tn.skip("{"); + while ((token = this.tn.next()) !== '}') { + if (!Lang.NAME.test(token)) + throw Error("illegal option name: " + name + "." + token); + if (this.tn.omit(":")) + setOption(parent["options"], name + "." + token, this._readValue(true)); + else + this._parseOptionValue(parent, name + "." + token); + } + } + }; + + /** + * Parses a service definition. + * @param {!Object} parent Parent definition + * @private + */ + ParserPrototype._parseService = function(parent) { + var token = this.tn.next(); + if (!Lang.NAME.test(token)) + throw Error("illegal service name at line "+this.tn.line+": "+token); + var name = token; + var svc = { + "name": name, + "rpc": {}, + "options": {} + }; + this.tn.skip("{"); + while ((token = this.tn.next()) !== '}') { + if (token === "option") + this._parseOption(svc); + else if (token === 'rpc') + this._parseServiceRPC(svc); + else + throw Error("illegal service token: "+token); + } + this.tn.omit(";"); + parent["services"].push(svc); + }; + + /** + * Parses a RPC service definition of the form ['rpc', name, (request), 'returns', (response)]. + * @param {!Object} svc Service definition + * @private + */ + ParserPrototype._parseServiceRPC = function(svc) { + var type = "rpc", + token = this.tn.next(); + if (!Lang.NAME.test(token)) + throw Error("illegal rpc service method name: "+token); + var name = token; + var method = { + "request": null, + "response": null, + "request_stream": false, + "response_stream": false, + "options": {} + }; + this.tn.skip("("); + token = this.tn.next(); + if (token.toLowerCase() === "stream") { + method["request_stream"] = true; + token = this.tn.next(); + } + if (!Lang.TYPEREF.test(token)) + throw Error("illegal rpc service request type: "+token); + method["request"] = token; + this.tn.skip(")"); + token = this.tn.next(); + if (token.toLowerCase() !== "returns") + throw Error("illegal rpc service request type delimiter: "+token); + this.tn.skip("("); + token = this.tn.next(); + if (token.toLowerCase() === "stream") { + method["response_stream"] = true; + token = this.tn.next(); + } + method["response"] = token; + this.tn.skip(")"); + token = this.tn.peek(); + if (token === '{') { + this.tn.next(); + while ((token = this.tn.next()) !== '}') { + if (token === 'option') + this._parseOption(method); + else + throw Error("illegal rpc service token: " + token); + } + this.tn.omit(";"); + } else + this.tn.skip(";"); + if (typeof svc[type] === 'undefined') + svc[type] = {}; + svc[type][name] = method; + }; + + /** + * Parses a message definition. + * @param {!Object} parent Parent definition + * @param {!Object=} fld Field definition if this is a group + * @returns {!Object} + * @private + */ + ParserPrototype._parseMessage = function(parent, fld) { + var isGroup = !!fld, + token = this.tn.next(); + var msg = { + "name": "", + "fields": [], + "enums": [], + "messages": [], + "options": {}, + "services": [], + "oneofs": {} + // "extensions": undefined + }; + if (!Lang.NAME.test(token)) + throw Error("illegal "+(isGroup ? "group" : "message")+" name: "+token); + msg["name"] = token; + if (isGroup) { + this.tn.skip("="); + fld["id"] = mkId(this.tn.next()); + msg["isGroup"] = true; + } + token = this.tn.peek(); + if (token === '[' && fld) + this._parseFieldOptions(fld); + this.tn.skip("{"); + while ((token = this.tn.next()) !== '}') { + if (Lang.RULE.test(token)) + this._parseMessageField(msg, token); + else if (token === "oneof") + this._parseMessageOneOf(msg); + else if (token === "enum") + this._parseEnum(msg); + else if (token === "message") + this._parseMessage(msg); + else if (token === "option") + this._parseOption(msg); + else if (token === "service") + this._parseService(msg); + else if (token === "extensions") + msg["extensions"] = this._parseExtensionRanges(); + else if (token === "reserved") + this._parseIgnored(); // TODO + else if (token === "extend") + this._parseExtend(msg); + else if (Lang.TYPEREF.test(token)) { + if (!this.proto3) + throw Error("illegal field rule: "+token); + this._parseMessageField(msg, "optional", token); + } else + throw Error("illegal message token: "+token); + } + this.tn.omit(";"); + parent["messages"].push(msg); + return msg; + }; + + /** + * Parses an ignored statement. + * @private + */ + ParserPrototype._parseIgnored = function() { + while (this.tn.peek() !== ';') + this.tn.next(); + this.tn.skip(";"); + }; + + /** + * Parses a message field. + * @param {!Object} msg Message definition + * @param {string} rule Field rule + * @param {string=} type Field type if already known (never known for maps) + * @returns {!Object} Field descriptor + * @private + */ + ParserPrototype._parseMessageField = function(msg, rule, type) { + if (!Lang.RULE.test(rule)) + throw Error("illegal message field rule: "+rule); + var fld = { + "rule": rule, + "type": "", + "name": "", + "options": {}, + "id": 0 + }; + var token; + if (rule === "map") { + + if (type) + throw Error("illegal type: " + type); + this.tn.skip('<'); + token = this.tn.next(); + if (!Lang.TYPE.test(token) && !Lang.TYPEREF.test(token)) + throw Error("illegal message field type: " + token); + fld["keytype"] = token; + this.tn.skip(','); + token = this.tn.next(); + if (!Lang.TYPE.test(token) && !Lang.TYPEREF.test(token)) + throw Error("illegal message field: " + token); + fld["type"] = token; + this.tn.skip('>'); + token = this.tn.next(); + if (!Lang.NAME.test(token)) + throw Error("illegal message field name: " + token); + fld["name"] = token; + this.tn.skip("="); + fld["id"] = mkId(this.tn.next()); + token = this.tn.peek(); + if (token === '[') + this._parseFieldOptions(fld); + this.tn.skip(";"); + + } else { + + type = typeof type !== 'undefined' ? type : this.tn.next(); + + if (type === "group") { + + // "A [legacy] group simply combines a nested message type and a field into a single declaration. In your + // code, you can treat this message just as if it had a Result type field called result (the latter name is + // converted to lower-case so that it does not conflict with the former)." + var grp = this._parseMessage(msg, fld); + if (!/^[A-Z]/.test(grp["name"])) + throw Error('illegal group name: '+grp["name"]); + fld["type"] = grp["name"]; + fld["name"] = grp["name"].toLowerCase(); + this.tn.omit(";"); + + } else { + + if (!Lang.TYPE.test(type) && !Lang.TYPEREF.test(type)) + throw Error("illegal message field type: " + type); + fld["type"] = type; + token = this.tn.next(); + if (!Lang.NAME.test(token)) + throw Error("illegal message field name: " + token); + fld["name"] = token; + this.tn.skip("="); + fld["id"] = mkId(this.tn.next()); + token = this.tn.peek(); + if (token === "[") + this._parseFieldOptions(fld); + this.tn.skip(";"); + + } + } + msg["fields"].push(fld); + return fld; + }; + + /** + * Parses a message oneof. + * @param {!Object} msg Message definition + * @private + */ + ParserPrototype._parseMessageOneOf = function(msg) { + var token = this.tn.next(); + if (!Lang.NAME.test(token)) + throw Error("illegal oneof name: "+token); + var name = token, + fld; + var fields = []; + this.tn.skip("{"); + while ((token = this.tn.next()) !== "}") { + fld = this._parseMessageField(msg, "optional", token); + fld["oneof"] = name; + fields.push(fld["id"]); + } + this.tn.omit(";"); + msg["oneofs"][name] = fields; + }; + + /** + * Parses a set of field option definitions. + * @param {!Object} fld Field definition + * @private + */ + ParserPrototype._parseFieldOptions = function(fld) { + this.tn.skip("["); + var token, + first = true; + while ((token = this.tn.peek()) !== ']') { + if (!first) + this.tn.skip(","); + this._parseOption(fld, true); + first = false; + } + this.tn.next(); + }; + + /** + * Parses an enum. + * @param {!Object} msg Message definition + * @private + */ + ParserPrototype._parseEnum = function(msg) { + var enm = { + "name": "", + "values": [], + "options": {} + }; + var token = this.tn.next(); + if (!Lang.NAME.test(token)) + throw Error("illegal name: "+token); + enm["name"] = token; + this.tn.skip("{"); + while ((token = this.tn.next()) !== '}') { + if (token === "option") + this._parseOption(enm); + else { + if (!Lang.NAME.test(token)) + throw Error("illegal name: "+token); + this.tn.skip("="); + var val = { + "name": token, + "id": mkId(this.tn.next(), true) + }; + token = this.tn.peek(); + if (token === "[") + this._parseFieldOptions({ "options": {} }); + this.tn.skip(";"); + enm["values"].push(val); + } + } + this.tn.omit(";"); + msg["enums"].push(enm); + }; + + /** + * Parses extension / reserved ranges. + * @returns {!Array.>} + * @private + */ + ParserPrototype._parseExtensionRanges = function() { + var ranges = []; + var token, + range, + value; + do { + range = []; + while (true) { + token = this.tn.next(); + switch (token) { + case "min": + value = ProtoBuf.ID_MIN; + break; + case "max": + value = ProtoBuf.ID_MAX; + break; + default: + value = mkNumber(token); + break; + } + range.push(value); + if (range.length === 2) + break; + if (this.tn.peek() !== "to") { + range.push(value); + break; + } + this.tn.next(); + } + ranges.push(range); + } while (this.tn.omit(",")); + this.tn.skip(";"); + return ranges; + }; + + /** + * Parses an extend block. + * @param {!Object} parent Parent object + * @private + */ + ParserPrototype._parseExtend = function(parent) { + var token = this.tn.next(); + if (!Lang.TYPEREF.test(token)) + throw Error("illegal extend reference: "+token); + var ext = { + "ref": token, + "fields": [] + }; + this.tn.skip("{"); + while ((token = this.tn.next()) !== '}') { + if (Lang.RULE.test(token)) + this._parseMessageField(ext, token); + else if (Lang.TYPEREF.test(token)) { + if (!this.proto3) + throw Error("illegal field rule: "+token); + this._parseMessageField(ext, "optional", token); + } else + throw Error("illegal extend token: "+token); + } + this.tn.omit(";"); + parent["messages"].push(ext); + return ext; + }; + + // ----- General ----- + + /** + * Returns a string representation of this parser. + * @returns {string} + */ + ParserPrototype.toString = function() { + return "Parser at line "+this.tn.line; + }; + + /** + * @alias ProtoBuf.DotProto.Parser + * @expose + */ + DotProto.Parser = Parser; + + return DotProto; + + })(ProtoBuf, ProtoBuf.Lang); + + /** + * @alias ProtoBuf.Reflect + * @expose + */ + ProtoBuf.Reflect = (function(ProtoBuf) { + "use strict"; + + /** + * Reflection types. + * @exports ProtoBuf.Reflect + * @namespace + */ + var Reflect = {}; + + /** + * Constructs a Reflect base class. + * @exports ProtoBuf.Reflect.T + * @constructor + * @abstract + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {?ProtoBuf.Reflect.T} parent Parent object + * @param {string} name Object name + */ + var T = function(builder, parent, name) { + + /** + * Builder reference. + * @type {!ProtoBuf.Builder} + * @expose + */ + this.builder = builder; + + /** + * Parent object. + * @type {?ProtoBuf.Reflect.T} + * @expose + */ + this.parent = parent; + + /** + * Object name in namespace. + * @type {string} + * @expose + */ + this.name = name; + + /** + * Fully qualified class name + * @type {string} + * @expose + */ + this.className; + }; + + /** + * @alias ProtoBuf.Reflect.T.prototype + * @inner + */ + var TPrototype = T.prototype; + + /** + * Returns the fully qualified name of this object. + * @returns {string} Fully qualified name as of ".PATH.TO.THIS" + * @expose + */ + TPrototype.fqn = function() { + var name = this.name, + ptr = this; + do { + ptr = ptr.parent; + if (ptr == null) + break; + name = ptr.name+"."+name; + } while (true); + return name; + }; + + /** + * Returns a string representation of this Reflect object (its fully qualified name). + * @param {boolean=} includeClass Set to true to include the class name. Defaults to false. + * @return String representation + * @expose + */ + TPrototype.toString = function(includeClass) { + return (includeClass ? this.className + " " : "") + this.fqn(); + }; + + /** + * Builds this type. + * @throws {Error} If this type cannot be built directly + * @expose + */ + TPrototype.build = function() { + throw Error(this.toString(true)+" cannot be built directly"); + }; + + /** + * @alias ProtoBuf.Reflect.T + * @expose + */ + Reflect.T = T; + + /** + * Constructs a new Namespace. + * @exports ProtoBuf.Reflect.Namespace + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {?ProtoBuf.Reflect.Namespace} parent Namespace parent + * @param {string} name Namespace name + * @param {Object.=} options Namespace options + * @param {string?} syntax The syntax level of this definition (e.g., proto3) + * @constructor + * @extends ProtoBuf.Reflect.T + */ + var Namespace = function(builder, parent, name, options, syntax) { + T.call(this, builder, parent, name); + + /** + * @override + */ + this.className = "Namespace"; + + /** + * Children inside the namespace. + * @type {!Array.} + */ + this.children = []; + + /** + * Options. + * @type {!Object.} + */ + this.options = options || {}; + + /** + * Syntax level (e.g., proto2 or proto3). + * @type {!string} + */ + this.syntax = syntax || "proto2"; + }; + + /** + * @alias ProtoBuf.Reflect.Namespace.prototype + * @inner + */ + var NamespacePrototype = Namespace.prototype = Object.create(T.prototype); + + /** + * Returns an array of the namespace's children. + * @param {ProtoBuf.Reflect.T=} type Filter type (returns instances of this type only). Defaults to null (all children). + * @return {Array.} + * @expose + */ + NamespacePrototype.getChildren = function(type) { + type = type || null; + if (type == null) + return this.children.slice(); + var children = []; + for (var i=0, k=this.children.length; i} qn Qualified name to resolve + * @param {boolean=} excludeNonNamespace Excludes non-namespace types, defaults to `false` + * @return {?ProtoBuf.Reflect.Namespace} The resolved type or null if not found + * @expose + */ + NamespacePrototype.resolve = function(qn, excludeNonNamespace) { + var part = typeof qn === 'string' ? qn.split(".") : qn, + ptr = this, + i = 0; + if (part[i] === "") { // Fully qualified name, e.g. ".My.Message' + while (ptr.parent !== null) + ptr = ptr.parent; + i++; + } + var child; + do { + do { + if (!(ptr instanceof Reflect.Namespace)) { + ptr = null; + break; + } + child = ptr.getChild(part[i]); + if (!child || !(child instanceof Reflect.T) || (excludeNonNamespace && !(child instanceof Reflect.Namespace))) { + ptr = null; + break; + } + ptr = child; i++; + } while (i < part.length); + if (ptr != null) + break; // Found + // Else search the parent + if (this.parent !== null) + return this.parent.resolve(qn, excludeNonNamespace); + } while (ptr != null); + return ptr; + }; + + /** + * Determines the shortest qualified name of the specified type, if any, relative to this namespace. + * @param {!ProtoBuf.Reflect.T} t Reflection type + * @returns {string} The shortest qualified name or, if there is none, the fqn + * @expose + */ + NamespacePrototype.qn = function(t) { + var part = [], ptr = t; + do { + part.unshift(ptr.name); + ptr = ptr.parent; + } while (ptr !== null); + for (var len=1; len <= part.length; len++) { + var qn = part.slice(part.length-len); + if (t === this.resolve(qn, t instanceof Reflect.Namespace)) + return qn.join("."); + } + return t.fqn(); + }; + + /** + * Builds the namespace and returns the runtime counterpart. + * @return {Object.} Runtime namespace + * @expose + */ + NamespacePrototype.build = function() { + /** @dict */ + var ns = {}; + var children = this.children; + for (var i=0, k=children.length, child; i} + */ + NamespacePrototype.buildOpt = function() { + var opt = {}, + keys = Object.keys(this.options); + for (var i=0, k=keys.length; i}null} Option value or NULL if there is no such option + */ + NamespacePrototype.getOption = function(name) { + if (typeof name === 'undefined') + return this.options; + return typeof this.options[name] !== 'undefined' ? this.options[name] : null; + }; + + /** + * @alias ProtoBuf.Reflect.Namespace + * @expose + */ + Reflect.Namespace = Namespace; + + /** + * Constructs a new Element implementation that checks and converts values for a + * particular field type, as appropriate. + * + * An Element represents a single value: either the value of a singular field, + * or a value contained in one entry of a repeated field or map field. This + * class does not implement these higher-level concepts; it only encapsulates + * the low-level typechecking and conversion. + * + * @exports ProtoBuf.Reflect.Element + * @param {{name: string, wireType: number}} type Resolved data type + * @param {ProtoBuf.Reflect.T|null} resolvedType Resolved type, if relevant + * (e.g. submessage field). + * @param {boolean} isMapKey Is this element a Map key? The value will be + * converted to string form if so. + * @param {string} syntax Syntax level of defining message type, e.g., + * proto2 or proto3. + * @constructor + */ + var Element = function(type, resolvedType, isMapKey, syntax) { + + /** + * Element type, as a string (e.g., int32). + * @type {{name: string, wireType: number}} + */ + this.type = type; + + /** + * Element type reference to submessage or enum definition, if needed. + * @type {ProtoBuf.Reflect.T|null} + */ + this.resolvedType = resolvedType; + + /** + * Element is a map key. + * @type {boolean} + */ + this.isMapKey = isMapKey; + + /** + * Syntax level of defining message type, e.g., proto2 or proto3. + * @type {string} + */ + this.syntax = syntax; + + if (isMapKey && ProtoBuf.MAP_KEY_TYPES.indexOf(type) < 0) + throw Error("Invalid map key type: " + type.name); + }; + + var ElementPrototype = Element.prototype; + + /** + * Obtains a (new) default value for the specified type. + * @param type {string|{name: string, wireType: number}} Field type + * @returns {*} Default value + * @inner + */ + function mkDefault(type) { + if (typeof type === 'string') + type = ProtoBuf.TYPES[type]; + if (typeof type.defaultValue === 'undefined') + throw Error("default value for type "+type.name+" is not supported"); + if (type == ProtoBuf.TYPES["bytes"]) + return new ByteBuffer(0); + return type.defaultValue; + } + + /** + * Returns the default value for this field in proto3. + * @function + * @param type {string|{name: string, wireType: number}} the field type + * @returns {*} Default value + */ + Element.defaultFieldValue = mkDefault; + + /** + * Makes a Long from a value. + * @param {{low: number, high: number, unsigned: boolean}|string|number} value Value + * @param {boolean=} unsigned Whether unsigned or not, defaults to reuse it from Long-like objects or to signed for + * strings and numbers + * @returns {!Long} + * @throws {Error} If the value cannot be converted to a Long + * @inner + */ + function mkLong(value, unsigned) { + if (value && typeof value.low === 'number' && typeof value.high === 'number' && typeof value.unsigned === 'boolean' + && value.low === value.low && value.high === value.high) + return new ProtoBuf.Long(value.low, value.high, typeof unsigned === 'undefined' ? value.unsigned : unsigned); + if (typeof value === 'string') + return ProtoBuf.Long.fromString(value, unsigned || false, 10); + if (typeof value === 'number') + return ProtoBuf.Long.fromNumber(value, unsigned || false); + throw Error("not convertible to Long"); + } + + /** + * Checks if the given value can be set for an element of this type (singular + * field or one element of a repeated field or map). + * @param {*} value Value to check + * @return {*} Verified, maybe adjusted, value + * @throws {Error} If the value cannot be verified for this element slot + * @expose + */ + ElementPrototype.verifyValue = function(value) { + var self = this; + function fail(val, msg) { + throw Error("Illegal value for "+self.toString(true)+" of type "+self.type.name+": "+val+" ("+msg+")"); + } + switch (this.type) { + // Signed 32bit + case ProtoBuf.TYPES["int32"]: + case ProtoBuf.TYPES["sint32"]: + case ProtoBuf.TYPES["sfixed32"]: + // Account for !NaN: value === value + if (typeof value !== 'number' || (value === value && value % 1 !== 0)) + fail(typeof value, "not an integer"); + return value > 4294967295 ? value | 0 : value; + + // Unsigned 32bit + case ProtoBuf.TYPES["uint32"]: + case ProtoBuf.TYPES["fixed32"]: + if (typeof value !== 'number' || (value === value && value % 1 !== 0)) + fail(typeof value, "not an integer"); + return value < 0 ? value >>> 0 : value; + + // Signed 64bit + case ProtoBuf.TYPES["int64"]: + case ProtoBuf.TYPES["sint64"]: + case ProtoBuf.TYPES["sfixed64"]: { + if (ProtoBuf.Long) + try { + return mkLong(value, false); + } catch (e) { + fail(typeof value, e.message); + } + else + fail(typeof value, "requires Long.js"); + } + + // Unsigned 64bit + case ProtoBuf.TYPES["uint64"]: + case ProtoBuf.TYPES["fixed64"]: { + if (ProtoBuf.Long) + try { + return mkLong(value, true); + } catch (e) { + fail(typeof value, e.message); + } + else + fail(typeof value, "requires Long.js"); + } + + // Bool + case ProtoBuf.TYPES["bool"]: + if (typeof value !== 'boolean') + fail(typeof value, "not a boolean"); + return value; + + // Float + case ProtoBuf.TYPES["float"]: + case ProtoBuf.TYPES["double"]: + if (typeof value !== 'number') + fail(typeof value, "not a number"); + return value; + + // Length-delimited string + case ProtoBuf.TYPES["string"]: + if (typeof value !== 'string' && !(value && value instanceof String)) + fail(typeof value, "not a string"); + return ""+value; // Convert String object to string + + // Length-delimited bytes + case ProtoBuf.TYPES["bytes"]: + if (ByteBuffer.isByteBuffer(value)) + return value; + return ByteBuffer.wrap(value, "base64"); + + // Constant enum value + case ProtoBuf.TYPES["enum"]: { + var values = this.resolvedType.getChildren(ProtoBuf.Reflect.Enum.Value); + for (i=0; i 4294967295 || value < 0) + fail(typeof value, "not in range for uint32") + return value; + } else { + // proto2 requires enum values to be valid. + fail(value, "not a valid enum value"); + } + } + // Embedded message + case ProtoBuf.TYPES["group"]: + case ProtoBuf.TYPES["message"]: { + if (!value || typeof value !== 'object') + fail(typeof value, "object expected"); + if (value instanceof this.resolvedType.clazz) + return value; + if (value instanceof ProtoBuf.Builder.Message) { + // Mismatched type: Convert to object (see: https://github.com/dcodeIO/ProtoBuf.js/issues/180) + var obj = {}; + for (var i in value) + if (value.hasOwnProperty(i)) + obj[i] = value[i]; + value = obj; + } + // Else let's try to construct one from a key-value object + return new (this.resolvedType.clazz)(value); // May throw for a hundred of reasons + } + } + + // We should never end here + throw Error("[INTERNAL] Illegal value for "+this.toString(true)+": "+value+" (undefined type "+this.type+")"); + }; + + /** + * Calculates the byte length of an element on the wire. + * @param {number} id Field number + * @param {*} value Field value + * @returns {number} Byte length + * @throws {Error} If the value cannot be calculated + * @expose + */ + ElementPrototype.calculateLength = function(id, value) { + if (value === null) return 0; // Nothing to encode + // Tag has already been written + var n; + switch (this.type) { + case ProtoBuf.TYPES["int32"]: + return value < 0 ? ByteBuffer.calculateVarint64(value) : ByteBuffer.calculateVarint32(value); + case ProtoBuf.TYPES["uint32"]: + return ByteBuffer.calculateVarint32(value); + case ProtoBuf.TYPES["sint32"]: + return ByteBuffer.calculateVarint32(ByteBuffer.zigZagEncode32(value)); + case ProtoBuf.TYPES["fixed32"]: + case ProtoBuf.TYPES["sfixed32"]: + case ProtoBuf.TYPES["float"]: + return 4; + case ProtoBuf.TYPES["int64"]: + case ProtoBuf.TYPES["uint64"]: + return ByteBuffer.calculateVarint64(value); + case ProtoBuf.TYPES["sint64"]: + return ByteBuffer.calculateVarint64(ByteBuffer.zigZagEncode64(value)); + case ProtoBuf.TYPES["fixed64"]: + case ProtoBuf.TYPES["sfixed64"]: + return 8; + case ProtoBuf.TYPES["bool"]: + return 1; + case ProtoBuf.TYPES["enum"]: + return ByteBuffer.calculateVarint32(value); + case ProtoBuf.TYPES["double"]: + return 8; + case ProtoBuf.TYPES["string"]: + n = ByteBuffer.calculateUTF8Bytes(value); + return ByteBuffer.calculateVarint32(n) + n; + case ProtoBuf.TYPES["bytes"]: + if (value.remaining() < 0) + throw Error("Illegal value for "+this.toString(true)+": "+value.remaining()+" bytes remaining"); + return ByteBuffer.calculateVarint32(value.remaining()) + value.remaining(); + case ProtoBuf.TYPES["message"]: + n = this.resolvedType.calculate(value); + return ByteBuffer.calculateVarint32(n) + n; + case ProtoBuf.TYPES["group"]: + n = this.resolvedType.calculate(value); + return n + ByteBuffer.calculateVarint32((id << 3) | ProtoBuf.WIRE_TYPES.ENDGROUP); + } + // We should never end here + throw Error("[INTERNAL] Illegal value to encode in "+this.toString(true)+": "+value+" (unknown type)"); + }; + + /** + * Encodes a value to the specified buffer. Does not encode the key. + * @param {number} id Field number + * @param {*} value Field value + * @param {ByteBuffer} buffer ByteBuffer to encode to + * @return {ByteBuffer} The ByteBuffer for chaining + * @throws {Error} If the value cannot be encoded + * @expose + */ + ElementPrototype.encodeValue = function(id, value, buffer) { + if (value === null) return buffer; // Nothing to encode + // Tag has already been written + + switch (this.type) { + // 32bit signed varint + case ProtoBuf.TYPES["int32"]: + // "If you use int32 or int64 as the type for a negative number, the resulting varint is always ten bytes + // long – it is, effectively, treated like a very large unsigned integer." (see #122) + if (value < 0) + buffer.writeVarint64(value); + else + buffer.writeVarint32(value); + break; + + // 32bit unsigned varint + case ProtoBuf.TYPES["uint32"]: + buffer.writeVarint32(value); + break; + + // 32bit varint zig-zag + case ProtoBuf.TYPES["sint32"]: + buffer.writeVarint32ZigZag(value); + break; + + // Fixed unsigned 32bit + case ProtoBuf.TYPES["fixed32"]: + buffer.writeUint32(value); + break; + + // Fixed signed 32bit + case ProtoBuf.TYPES["sfixed32"]: + buffer.writeInt32(value); + break; + + // 64bit varint as-is + case ProtoBuf.TYPES["int64"]: + case ProtoBuf.TYPES["uint64"]: + buffer.writeVarint64(value); // throws + break; + + // 64bit varint zig-zag + case ProtoBuf.TYPES["sint64"]: + buffer.writeVarint64ZigZag(value); // throws + break; + + // Fixed unsigned 64bit + case ProtoBuf.TYPES["fixed64"]: + buffer.writeUint64(value); // throws + break; + + // Fixed signed 64bit + case ProtoBuf.TYPES["sfixed64"]: + buffer.writeInt64(value); // throws + break; + + // Bool + case ProtoBuf.TYPES["bool"]: + if (typeof value === 'string') + buffer.writeVarint32(value.toLowerCase() === 'false' ? 0 : !!value); + else + buffer.writeVarint32(value ? 1 : 0); + break; + + // Constant enum value + case ProtoBuf.TYPES["enum"]: + buffer.writeVarint32(value); + break; + + // 32bit float + case ProtoBuf.TYPES["float"]: + buffer.writeFloat32(value); + break; + + // 64bit float + case ProtoBuf.TYPES["double"]: + buffer.writeFloat64(value); + break; + + // Length-delimited string + case ProtoBuf.TYPES["string"]: + buffer.writeVString(value); + break; + + // Length-delimited bytes + case ProtoBuf.TYPES["bytes"]: + if (value.remaining() < 0) + throw Error("Illegal value for "+this.toString(true)+": "+value.remaining()+" bytes remaining"); + var prevOffset = value.offset; + buffer.writeVarint32(value.remaining()); + buffer.append(value); + value.offset = prevOffset; + break; + + // Embedded message + case ProtoBuf.TYPES["message"]: + var bb = new ByteBuffer().LE(); + this.resolvedType.encode(value, bb); + buffer.writeVarint32(bb.offset); + buffer.append(bb.flip()); + break; + + // Legacy group + case ProtoBuf.TYPES["group"]: + this.resolvedType.encode(value, buffer); + buffer.writeVarint32((id << 3) | ProtoBuf.WIRE_TYPES.ENDGROUP); + break; + + default: + // We should never end here + throw Error("[INTERNAL] Illegal value to encode in "+this.toString(true)+": "+value+" (unknown type)"); + } + return buffer; + }; + + /** + * Decode one element value from the specified buffer. + * @param {ByteBuffer} buffer ByteBuffer to decode from + * @param {number} wireType The field wire type + * @param {number} id The field number + * @return {*} Decoded value + * @throws {Error} If the field cannot be decoded + * @expose + */ + ElementPrototype.decode = function(buffer, wireType, id) { + if (wireType != this.type.wireType) + throw Error("Unexpected wire type for element"); + + var value, nBytes; + switch (this.type) { + // 32bit signed varint + case ProtoBuf.TYPES["int32"]: + return buffer.readVarint32() | 0; + + // 32bit unsigned varint + case ProtoBuf.TYPES["uint32"]: + return buffer.readVarint32() >>> 0; + + // 32bit signed varint zig-zag + case ProtoBuf.TYPES["sint32"]: + return buffer.readVarint32ZigZag() | 0; + + // Fixed 32bit unsigned + case ProtoBuf.TYPES["fixed32"]: + return buffer.readUint32() >>> 0; + + case ProtoBuf.TYPES["sfixed32"]: + return buffer.readInt32() | 0; + + // 64bit signed varint + case ProtoBuf.TYPES["int64"]: + return buffer.readVarint64(); + + // 64bit unsigned varint + case ProtoBuf.TYPES["uint64"]: + return buffer.readVarint64().toUnsigned(); + + // 64bit signed varint zig-zag + case ProtoBuf.TYPES["sint64"]: + return buffer.readVarint64ZigZag(); + + // Fixed 64bit unsigned + case ProtoBuf.TYPES["fixed64"]: + return buffer.readUint64(); + + // Fixed 64bit signed + case ProtoBuf.TYPES["sfixed64"]: + return buffer.readInt64(); + + // Bool varint + case ProtoBuf.TYPES["bool"]: + return !!buffer.readVarint32(); + + // Constant enum value (varint) + case ProtoBuf.TYPES["enum"]: + // The following Builder.Message#set will already throw + return buffer.readVarint32(); + + // 32bit float + case ProtoBuf.TYPES["float"]: + return buffer.readFloat(); + + // 64bit float + case ProtoBuf.TYPES["double"]: + return buffer.readDouble(); + + // Length-delimited string + case ProtoBuf.TYPES["string"]: + return buffer.readVString(); + + // Length-delimited bytes + case ProtoBuf.TYPES["bytes"]: { + nBytes = buffer.readVarint32(); + if (buffer.remaining() < nBytes) + throw Error("Illegal number of bytes for "+this.toString(true)+": "+nBytes+" required but got only "+buffer.remaining()); + value = buffer.clone(); // Offset already set + value.limit = value.offset+nBytes; + buffer.offset += nBytes; + return value; + } + + // Length-delimited embedded message + case ProtoBuf.TYPES["message"]: { + nBytes = buffer.readVarint32(); + return this.resolvedType.decode(buffer, nBytes); + } + + // Legacy group + case ProtoBuf.TYPES["group"]: + return this.resolvedType.decode(buffer, -1, id); + } + + // We should never end here + throw Error("[INTERNAL] Illegal decode type"); + }; + + /** + * Converts a value from a string to the canonical element type. + * + * Legal only when isMapKey is true. + * + * @param {string} str The string value + * @returns {*} The value + */ + ElementPrototype.valueFromString = function(str) { + if (!this.isMapKey) { + throw Error("valueFromString() called on non-map-key element"); + } + + switch (this.type) { + case ProtoBuf.TYPES["int32"]: + case ProtoBuf.TYPES["sint32"]: + case ProtoBuf.TYPES["sfixed32"]: + case ProtoBuf.TYPES["uint32"]: + case ProtoBuf.TYPES["fixed32"]: + return this.verifyValue(parseInt(str)); + + case ProtoBuf.TYPES["int64"]: + case ProtoBuf.TYPES["sint64"]: + case ProtoBuf.TYPES["sfixed64"]: + case ProtoBuf.TYPES["uint64"]: + case ProtoBuf.TYPES["fixed64"]: + // Long-based fields support conversions from string already. + return this.verifyValue(str); + + case ProtoBuf.TYPES["bool"]: + return str === "true"; + + case ProtoBuf.TYPES["string"]: + return this.verifyValue(str); + + case ProtoBuf.TYPES["bytes"]: + return ByteBuffer.fromBinary(str); + } + }; + + /** + * Converts a value from the canonical element type to a string. + * + * It should be the case that `valueFromString(valueToString(val))` returns + * a value equivalent to `verifyValue(val)` for every legal value of `val` + * according to this element type. + * + * This may be used when the element must be stored or used as a string, + * e.g., as a map key on an Object. + * + * Legal only when isMapKey is true. + * + * @param {*} val The value + * @returns {string} The string form of the value. + */ + ElementPrototype.valueToString = function(value) { + if (!this.isMapKey) { + throw Error("valueToString() called on non-map-key element"); + } + + if (this.type === ProtoBuf.TYPES["bytes"]) { + return value.toString("binary"); + } else { + return value.toString(); + } + }; + + /** + * @alias ProtoBuf.Reflect.Element + * @expose + */ + Reflect.Element = Element; + + /** + * Constructs a new Message. + * @exports ProtoBuf.Reflect.Message + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {!ProtoBuf.Reflect.Namespace} parent Parent message or namespace + * @param {string} name Message name + * @param {Object.=} options Message options + * @param {boolean=} isGroup `true` if this is a legacy group + * @param {string?} syntax The syntax level of this definition (e.g., proto3) + * @constructor + * @extends ProtoBuf.Reflect.Namespace + */ + var Message = function(builder, parent, name, options, isGroup, syntax) { + Namespace.call(this, builder, parent, name, options, syntax); + + /** + * @override + */ + this.className = "Message"; + + /** + * Extensions range. + * @type {!Array.|undefined} + * @expose + */ + this.extensions = undefined; + + /** + * Runtime message class. + * @type {?function(new:ProtoBuf.Builder.Message)} + * @expose + */ + this.clazz = null; + + /** + * Whether this is a legacy group or not. + * @type {boolean} + * @expose + */ + this.isGroup = !!isGroup; + + // The following cached collections are used to efficiently iterate over or look up fields when decoding. + + /** + * Cached fields. + * @type {?Array.} + * @private + */ + this._fields = null; + + /** + * Cached fields by id. + * @type {?Object.} + * @private + */ + this._fieldsById = null; + + /** + * Cached fields by name. + * @type {?Object.} + * @private + */ + this._fieldsByName = null; + }; + + /** + * @alias ProtoBuf.Reflect.Message.prototype + * @inner + */ + var MessagePrototype = Message.prototype = Object.create(Namespace.prototype); + + /** + * Builds the message and returns the runtime counterpart, which is a fully functional class. + * @see ProtoBuf.Builder.Message + * @param {boolean=} rebuild Whether to rebuild or not, defaults to false + * @return {ProtoBuf.Reflect.Message} Message class + * @throws {Error} If the message cannot be built + * @expose + */ + MessagePrototype.build = function(rebuild) { + if (this.clazz && !rebuild) + return this.clazz; + + // Create the runtime Message class in its own scope + var clazz = (function(ProtoBuf, T) { + + var fields = T.getChildren(ProtoBuf.Reflect.Message.Field), + oneofs = T.getChildren(ProtoBuf.Reflect.Message.OneOf); + + /** + * Constructs a new runtime Message. + * @name ProtoBuf.Builder.Message + * @class Barebone of all runtime messages. + * @param {!Object.|string} values Preset values + * @param {...string} var_args + * @constructor + * @throws {Error} If the message cannot be created + */ + var Message = function(values, var_args) { + ProtoBuf.Builder.Message.call(this); + + // Create virtual oneof properties + for (var i=0, k=oneofs.length; i 0) { + var value; + // Set field values from a values object + if (arguments.length === 1 && values !== null && typeof values === 'object' && + /* not _another_ Message */ (typeof values.encode !== 'function' || values instanceof Message) && + /* not a repeated field */ !Array.isArray(values) && + /* not a Map */ !(values instanceof ProtoBuf.Map) && + /* not a ByteBuffer */ !ByteBuffer.isByteBuffer(values) && + /* not an ArrayBuffer */ !(values instanceof ArrayBuffer) && + /* not a Long */ !(ProtoBuf.Long && values instanceof ProtoBuf.Long)) { + this.$set(values); + } else // Set field values from arguments, in declaration order + for (i=0, k=arguments.length; i} keyOrObj String key or plain object holding multiple values + * @param {(*|boolean)=} value Value to set if key is a string, otherwise omitted + * @param {boolean=} noAssert Whether to not assert for an actual field / proper value type, defaults to `false` + * @returns {!ProtoBuf.Builder.Message} this + * @throws {Error} If the value cannot be set + * @expose + */ + MessagePrototype.set = function(keyOrObj, value, noAssert) { + if (keyOrObj && typeof keyOrObj === 'object') { + noAssert = value; + for (var ikey in keyOrObj) + if (keyOrObj.hasOwnProperty(ikey) && typeof (value = keyOrObj[ikey]) !== 'undefined') + this.$set(ikey, value, noAssert); + return this; + } + var field = T._fieldsByName[keyOrObj]; + if (!noAssert) { + if (!field) + throw Error(this+"#"+keyOrObj+" is not a field: undefined"); + if (!(field instanceof ProtoBuf.Reflect.Message.Field)) + throw Error(this+"#"+keyOrObj+" is not a field: "+field.toString(true)); + this[field.name] = (value = field.verifyValue(value)); // May throw + } else + this[keyOrObj] = value; + if (field && field.oneof) { // Field is part of an OneOf (not a virtual OneOf field) + var currentField = this[field.oneof.name]; // Virtual field references currently set field + if (value !== null) { + if (currentField !== null && currentField !== field.name) + this[currentField] = null; // Clear currently set field + this[field.oneof.name] = field.name; // Point virtual field at this field + } else if (/* value === null && */currentField === keyOrObj) + this[field.oneof.name] = null; // Clear virtual field (current field explicitly cleared) + } + return this; + }; + + /** + * Sets a field's value. This is an alias for [@link ProtoBuf.Builder.Message#set}. + * @name ProtoBuf.Builder.Message#$set + * @function + * @param {string|!Object.} keyOrObj String key or plain object holding multiple values + * @param {(*|boolean)=} value Value to set if key is a string, otherwise omitted + * @param {boolean=} noAssert Whether to not assert the value, defaults to `false` + * @throws {Error} If the value cannot be set + * @expose + */ + MessagePrototype.$set = MessagePrototype.set; + + /** + * Gets a field's value. + * @name ProtoBuf.Builder.Message#get + * @function + * @param {string} key Key + * @param {boolean=} noAssert Whether to not assert for an actual field, defaults to `false` + * @return {*} Value + * @throws {Error} If there is no such field + * @expose + */ + MessagePrototype.get = function(key, noAssert) { + if (noAssert) + return this[key]; + var field = T._fieldsByName[key]; + if (!field || !(field instanceof ProtoBuf.Reflect.Message.Field)) + throw Error(this+"#"+key+" is not a field: undefined"); + if (!(field instanceof ProtoBuf.Reflect.Message.Field)) + throw Error(this+"#"+key+" is not a field: "+field.toString(true)); + return this[field.name]; + }; + + /** + * Gets a field's value. This is an alias for {@link ProtoBuf.Builder.Message#$get}. + * @name ProtoBuf.Builder.Message#$get + * @function + * @param {string} key Key + * @return {*} Value + * @throws {Error} If there is no such field + * @expose + */ + MessagePrototype.$get = MessagePrototype.get; + + // Getters and setters + + for (var i=0; i} data Data payload + * @param {(!ByteBuffer|boolean)=} buffer ByteBuffer to encode to. Will create a new one and flip it if omitted. + * @param {boolean=} noVerify Whether to not verify field values, defaults to `false` + * @return {!ByteBuffer} Encoded message as a ByteBuffer + * @expose + */ + Message.encode = function(data, buffer, noVerify) { + return new Message(data).encode(buffer, noVerify); + }; + + /** + * Calculates the byte length of the message. + * @name ProtoBuf.Builder.Message#calculate + * @function + * @returns {number} Byte length + * @throws {Error} If the message cannot be calculated or if required fields are missing. + * @expose + */ + MessagePrototype.calculate = function() { + return T.calculate(this); + }; + + /** + * Encodes the varint32 length-delimited message. + * @name ProtoBuf.Builder.Message#encodeDelimited + * @function + * @param {(!ByteBuffer|boolean)=} buffer ByteBuffer to encode to. Will create a new one and flip it if omitted. + * @param {boolean=} noVerify Whether to not verify field values, defaults to `false` + * @return {!ByteBuffer} Encoded message as a ByteBuffer + * @throws {Error} If the message cannot be encoded or if required fields are missing. The later still + * returns the encoded ByteBuffer in the `encoded` property on the error. + * @expose + */ + MessagePrototype.encodeDelimited = function(buffer, noVerify) { + var isNew = false; + if (!buffer) + buffer = new ByteBuffer(), + isNew = true; + var enc = new ByteBuffer().LE(); + T.encode(this, enc, noVerify).flip(); + buffer.writeVarint32(enc.remaining()); + buffer.append(enc); + return isNew ? buffer.flip() : buffer; + }; + + /** + * Directly encodes the message to an ArrayBuffer. + * @name ProtoBuf.Builder.Message#encodeAB + * @function + * @return {ArrayBuffer} Encoded message as ArrayBuffer + * @throws {Error} If the message cannot be encoded or if required fields are missing. The later still + * returns the encoded ArrayBuffer in the `encoded` property on the error. + * @expose + */ + MessagePrototype.encodeAB = function() { + try { + return this.encode().toArrayBuffer(); + } catch (e) { + if (e["encoded"]) e["encoded"] = e["encoded"].toArrayBuffer(); + throw(e); + } + }; + + /** + * Returns the message as an ArrayBuffer. This is an alias for {@link ProtoBuf.Builder.Message#encodeAB}. + * @name ProtoBuf.Builder.Message#toArrayBuffer + * @function + * @return {ArrayBuffer} Encoded message as ArrayBuffer + * @throws {Error} If the message cannot be encoded or if required fields are missing. The later still + * returns the encoded ArrayBuffer in the `encoded` property on the error. + * @expose + */ + MessagePrototype.toArrayBuffer = MessagePrototype.encodeAB; + + /** + * Directly encodes the message to a node Buffer. + * @name ProtoBuf.Builder.Message#encodeNB + * @function + * @return {!Buffer} + * @throws {Error} If the message cannot be encoded, not running under node.js or if required fields are + * missing. The later still returns the encoded node Buffer in the `encoded` property on the error. + * @expose + */ + MessagePrototype.encodeNB = function() { + try { + return this.encode().toBuffer(); + } catch (e) { + if (e["encoded"]) e["encoded"] = e["encoded"].toBuffer(); + throw(e); + } + }; + + /** + * Returns the message as a node Buffer. This is an alias for {@link ProtoBuf.Builder.Message#encodeNB}. + * @name ProtoBuf.Builder.Message#toBuffer + * @function + * @return {!Buffer} + * @throws {Error} If the message cannot be encoded or if required fields are missing. The later still + * returns the encoded node Buffer in the `encoded` property on the error. + * @expose + */ + MessagePrototype.toBuffer = MessagePrototype.encodeNB; + + /** + * Directly encodes the message to a base64 encoded string. + * @name ProtoBuf.Builder.Message#encode64 + * @function + * @return {string} Base64 encoded string + * @throws {Error} If the underlying buffer cannot be encoded or if required fields are missing. The later + * still returns the encoded base64 string in the `encoded` property on the error. + * @expose + */ + MessagePrototype.encode64 = function() { + try { + return this.encode().toBase64(); + } catch (e) { + if (e["encoded"]) e["encoded"] = e["encoded"].toBase64(); + throw(e); + } + }; + + /** + * Returns the message as a base64 encoded string. This is an alias for {@link ProtoBuf.Builder.Message#encode64}. + * @name ProtoBuf.Builder.Message#toBase64 + * @function + * @return {string} Base64 encoded string + * @throws {Error} If the message cannot be encoded or if required fields are missing. The later still + * returns the encoded base64 string in the `encoded` property on the error. + * @expose + */ + MessagePrototype.toBase64 = MessagePrototype.encode64; + + /** + * Directly encodes the message to a hex encoded string. + * @name ProtoBuf.Builder.Message#encodeHex + * @function + * @return {string} Hex encoded string + * @throws {Error} If the underlying buffer cannot be encoded or if required fields are missing. The later + * still returns the encoded hex string in the `encoded` property on the error. + * @expose + */ + MessagePrototype.encodeHex = function() { + try { + return this.encode().toHex(); + } catch (e) { + if (e["encoded"]) e["encoded"] = e["encoded"].toHex(); + throw(e); + } + }; + + /** + * Returns the message as a hex encoded string. This is an alias for {@link ProtoBuf.Builder.Message#encodeHex}. + * @name ProtoBuf.Builder.Message#toHex + * @function + * @return {string} Hex encoded string + * @throws {Error} If the message cannot be encoded or if required fields are missing. The later still + * returns the encoded hex string in the `encoded` property on the error. + * @expose + */ + MessagePrototype.toHex = MessagePrototype.encodeHex; + + /** + * Clones a message object or field value to a raw object. + * @param {*} obj Object to clone + * @param {boolean} binaryAsBase64 Whether to include binary data as base64 strings or as a buffer otherwise + * @param {boolean} longsAsStrings Whether to encode longs as strings + * @param {!ProtoBuf.Reflect.T=} resolvedType The resolved field type if a field + * @returns {*} Cloned object + * @inner + */ + function cloneRaw(obj, binaryAsBase64, longsAsStrings, resolvedType) { + if (obj === null || typeof obj !== 'object') { + // Convert enum values to their respective names + if (resolvedType && resolvedType instanceof ProtoBuf.Reflect.Enum) { + var name = ProtoBuf.Reflect.Enum.getName(resolvedType.object, obj); + if (name !== null) + return name; + } + // Pass-through string, number, boolean, null... + return obj; + } + // Convert ByteBuffers to raw buffer or strings + if (ByteBuffer.isByteBuffer(obj)) + return binaryAsBase64 ? obj.toBase64() : obj.toBuffer(); + // Convert Longs to proper objects or strings + if (ProtoBuf.Long.isLong(obj)) + return longsAsStrings ? obj.toString() : ProtoBuf.Long.fromValue(obj); + var clone; + // Clone arrays + if (Array.isArray(obj)) { + clone = []; + obj.forEach(function(v, k) { + clone[k] = cloneRaw(v, binaryAsBase64, longsAsStrings, resolvedType); + }); + return clone; + } + clone = {}; + // Convert maps to objects + if (obj instanceof ProtoBuf.Map) { + var it = obj.entries(); + for (var e = it.next(); !e.done; e = it.next()) + clone[obj.keyElem.valueToString(e.value[0])] = cloneRaw(e.value[1], binaryAsBase64, longsAsStrings, obj.valueElem.resolvedType); + return clone; + } + // Everything else is a non-null object + var type = obj.$type, + field = undefined; + for (var i in obj) + if (obj.hasOwnProperty(i)) { + if (type && (field = type.getChild(i))) + clone[i] = cloneRaw(obj[i], binaryAsBase64, longsAsStrings, field.resolvedType); + else + clone[i] = cloneRaw(obj[i], binaryAsBase64, longsAsStrings); + } + return clone; + } + + /** + * Returns the message's raw payload. + * @param {boolean=} binaryAsBase64 Whether to include binary data as base64 strings instead of Buffers, defaults to `false` + * @param {boolean} longsAsStrings Whether to encode longs as strings + * @returns {Object.} Raw payload + * @expose + */ + MessagePrototype.toRaw = function(binaryAsBase64, longsAsStrings) { + return cloneRaw(this, !!binaryAsBase64, !!longsAsStrings, this.$type); + }; + + /** + * Encodes a message to JSON. + * @returns {string} JSON string + * @expose + */ + MessagePrototype.encodeJSON = function() { + return JSON.stringify( + cloneRaw(this, + /* binary-as-base64 */ true, + /* longs-as-strings */ true, + this.$type + ) + ); + }; + + /** + * Decodes a message from the specified buffer or string. + * @name ProtoBuf.Builder.Message.decode + * @function + * @param {!ByteBuffer|!ArrayBuffer|!Buffer|string} buffer Buffer to decode from + * @param {(number|string)=} length Message length. Defaults to decode all the remainig data. + * @param {string=} enc Encoding if buffer is a string: hex, utf8 (not recommended), defaults to base64 + * @return {!ProtoBuf.Builder.Message} Decoded message + * @throws {Error} If the message cannot be decoded or if required fields are missing. The later still + * returns the decoded message with missing fields in the `decoded` property on the error. + * @expose + * @see ProtoBuf.Builder.Message.decode64 + * @see ProtoBuf.Builder.Message.decodeHex + */ + Message.decode = function(buffer, length, enc) { + if (typeof length === 'string') + enc = length, + length = -1; + if (typeof buffer === 'string') + buffer = ByteBuffer.wrap(buffer, enc ? enc : "base64"); + buffer = ByteBuffer.isByteBuffer(buffer) ? buffer : ByteBuffer.wrap(buffer); // May throw + var le = buffer.littleEndian; + try { + var msg = T.decode(buffer.LE()); + buffer.LE(le); + return msg; + } catch (e) { + buffer.LE(le); + throw(e); + } + }; + + /** + * Decodes a varint32 length-delimited message from the specified buffer or string. + * @name ProtoBuf.Builder.Message.decodeDelimited + * @function + * @param {!ByteBuffer|!ArrayBuffer|!Buffer|string} buffer Buffer to decode from + * @param {string=} enc Encoding if buffer is a string: hex, utf8 (not recommended), defaults to base64 + * @return {ProtoBuf.Builder.Message} Decoded message or `null` if not enough bytes are available yet + * @throws {Error} If the message cannot be decoded or if required fields are missing. The later still + * returns the decoded message with missing fields in the `decoded` property on the error. + * @expose + */ + Message.decodeDelimited = function(buffer, enc) { + if (typeof buffer === 'string') + buffer = ByteBuffer.wrap(buffer, enc ? enc : "base64"); + buffer = ByteBuffer.isByteBuffer(buffer) ? buffer : ByteBuffer.wrap(buffer); // May throw + if (buffer.remaining() < 1) + return null; + var off = buffer.offset, + len = buffer.readVarint32(); + if (buffer.remaining() < len) { + buffer.offset = off; + return null; + } + try { + var msg = T.decode(buffer.slice(buffer.offset, buffer.offset + len).LE()); + buffer.offset += len; + return msg; + } catch (err) { + buffer.offset += len; + throw err; + } + }; + + /** + * Decodes the message from the specified base64 encoded string. + * @name ProtoBuf.Builder.Message.decode64 + * @function + * @param {string} str String to decode from + * @return {!ProtoBuf.Builder.Message} Decoded message + * @throws {Error} If the message cannot be decoded or if required fields are missing. The later still + * returns the decoded message with missing fields in the `decoded` property on the error. + * @expose + */ + Message.decode64 = function(str) { + return Message.decode(str, "base64"); + }; + + /** + * Decodes the message from the specified hex encoded string. + * @name ProtoBuf.Builder.Message.decodeHex + * @function + * @param {string} str String to decode from + * @return {!ProtoBuf.Builder.Message} Decoded message + * @throws {Error} If the message cannot be decoded or if required fields are missing. The later still + * returns the decoded message with missing fields in the `decoded` property on the error. + * @expose + */ + Message.decodeHex = function(str) { + return Message.decode(str, "hex"); + }; + + /** + * Decodes the message from a JSON string. + * @name ProtoBuf.Builder.Message.decodeJSON + * @function + * @param {string} str String to decode from + * @return {!ProtoBuf.Builder.Message} Decoded message + * @throws {Error} If the message cannot be decoded or if required fields are + * missing. + * @expose + */ + Message.decodeJSON = function(str) { + return new Message(JSON.parse(str)); + }; + + // Utility + + /** + * Returns a string representation of this Message. + * @name ProtoBuf.Builder.Message#toString + * @function + * @return {string} String representation as of ".Fully.Qualified.MessageName" + * @expose + */ + MessagePrototype.toString = function() { + return T.toString(); + }; + + // Properties + + /** + * Message options. + * @name ProtoBuf.Builder.Message.$options + * @type {Object.} + * @expose + */ + var $optionsS; // cc needs this + + /** + * Message options. + * @name ProtoBuf.Builder.Message#$options + * @type {Object.} + * @expose + */ + var $options; + + /** + * Reflection type. + * @name ProtoBuf.Builder.Message.$type + * @type {!ProtoBuf.Reflect.Message} + * @expose + */ + var $typeS; + + /** + * Reflection type. + * @name ProtoBuf.Builder.Message#$type + * @type {!ProtoBuf.Reflect.Message} + * @expose + */ + var $type; + + if (Object.defineProperty) + Object.defineProperty(Message, '$options', { "value": T.buildOpt() }), + Object.defineProperty(MessagePrototype, "$options", { "value": Message["$options"] }), + Object.defineProperty(Message, "$type", { "value": T }), + Object.defineProperty(MessagePrototype, "$type", { "value": T }); + + return Message; + + })(ProtoBuf, this); + + // Static enums and prototyped sub-messages / cached collections + this._fields = []; + this._fieldsById = {}; + this._fieldsByName = {}; + for (var i=0, k=this.children.length, child; i>> 3; + switch (wireType) { + case ProtoBuf.WIRE_TYPES.VARINT: + do tag = buf.readUint8(); + while ((tag & 0x80) === 0x80); + break; + case ProtoBuf.WIRE_TYPES.BITS64: + buf.offset += 8; + break; + case ProtoBuf.WIRE_TYPES.LDELIM: + tag = buf.readVarint32(); // reads the varint + buf.offset += tag; // skips n bytes + break; + case ProtoBuf.WIRE_TYPES.STARTGROUP: + skipTillGroupEnd(id, buf); + break; + case ProtoBuf.WIRE_TYPES.ENDGROUP: + if (id === expectedId) + return false; + else + throw Error("Illegal GROUPEND after unknown group: "+id+" ("+expectedId+" expected)"); + case ProtoBuf.WIRE_TYPES.BITS32: + buf.offset += 4; + break; + default: + throw Error("Illegal wire type in unknown group "+expectedId+": "+wireType); + } + return true; + } + + /** + * Decodes an encoded message and returns the decoded message. + * @param {ByteBuffer} buffer ByteBuffer to decode from + * @param {number=} length Message length. Defaults to decode all remaining data. + * @param {number=} expectedGroupEndId Expected GROUPEND id if this is a legacy group + * @return {ProtoBuf.Builder.Message} Decoded message + * @throws {Error} If the message cannot be decoded + * @expose + */ + MessagePrototype.decode = function(buffer, length, expectedGroupEndId) { + length = typeof length === 'number' ? length : -1; + var start = buffer.offset, + msg = new (this.clazz)(), + tag, wireType, id, field; + while (buffer.offset < start+length || (length === -1 && buffer.remaining() > 0)) { + tag = buffer.readVarint32(); + wireType = tag & 0x07; + id = tag >>> 3; + if (wireType === ProtoBuf.WIRE_TYPES.ENDGROUP) { + if (id !== expectedGroupEndId) + throw Error("Illegal group end indicator for "+this.toString(true)+": "+id+" ("+(expectedGroupEndId ? expectedGroupEndId+" expected" : "not a group")+")"); + break; + } + if (!(field = this._fieldsById[id])) { + // "messages created by your new code can be parsed by your old code: old binaries simply ignore the new field when parsing." + switch (wireType) { + case ProtoBuf.WIRE_TYPES.VARINT: + buffer.readVarint32(); + break; + case ProtoBuf.WIRE_TYPES.BITS32: + buffer.offset += 4; + break; + case ProtoBuf.WIRE_TYPES.BITS64: + buffer.offset += 8; + break; + case ProtoBuf.WIRE_TYPES.LDELIM: + var len = buffer.readVarint32(); + buffer.offset += len; + break; + case ProtoBuf.WIRE_TYPES.STARTGROUP: + while (skipTillGroupEnd(id, buffer)) {} + break; + default: + throw Error("Illegal wire type for unknown field "+id+" in "+this.toString(true)+"#decode: "+wireType); + } + continue; + } + if (field.repeated && !field.options["packed"]) { + msg[field.name].push(field.decode(wireType, buffer)); + } else if (field.map) { + var keyval = field.decode(wireType, buffer); + msg[field.name].set(keyval[0], keyval[1]); + } else { + msg[field.name] = field.decode(wireType, buffer); + if (field.oneof) { // Field is part of an OneOf (not a virtual OneOf field) + var currentField = msg[field.oneof.name]; // Virtual field references currently set field + if (currentField !== null && currentField !== field.name) + msg[currentField] = null; // Clear currently set field + msg[field.oneof.name] = field.name; // Point virtual field at this field + } + } + } + + // Check if all required fields are present and set default values for optional fields that are not + for (var i=0, k=this._fields.length; i=} options Options + * @param {!ProtoBuf.Reflect.Message.OneOf=} oneof Enclosing OneOf + * @param {string?} syntax The syntax level of this definition (e.g., proto3) + * @constructor + * @extends ProtoBuf.Reflect.T + */ + var Field = function(builder, message, rule, keytype, type, name, id, options, oneof, syntax) { + T.call(this, builder, message, name); + + /** + * @override + */ + this.className = "Message.Field"; + + /** + * Message field required flag. + * @type {boolean} + * @expose + */ + this.required = rule === "required"; + + /** + * Message field repeated flag. + * @type {boolean} + * @expose + */ + this.repeated = rule === "repeated"; + + /** + * Message field map flag. + * @type {boolean} + * @expose + */ + this.map = rule === "map"; + + /** + * Message field key type. Type reference string if unresolved, protobuf + * type if resolved. Valid only if this.map === true, null otherwise. + * @type {string|{name: string, wireType: number}|null} + * @expose + */ + this.keyType = keytype || null; + + /** + * Message field type. Type reference string if unresolved, protobuf type if + * resolved. In a map field, this is the value type. + * @type {string|{name: string, wireType: number}} + * @expose + */ + this.type = type; + + /** + * Resolved type reference inside the global namespace. + * @type {ProtoBuf.Reflect.T|null} + * @expose + */ + this.resolvedType = null; + + /** + * Unique message field id. + * @type {number} + * @expose + */ + this.id = id; + + /** + * Message field options. + * @type {!Object.} + * @dict + * @expose + */ + this.options = options || {}; + + /** + * Default value. + * @type {*} + * @expose + */ + this.defaultValue = null; + + /** + * Enclosing OneOf. + * @type {?ProtoBuf.Reflect.Message.OneOf} + * @expose + */ + this.oneof = oneof || null; + + /** + * Syntax level of this definition (e.g., proto3). + * @type {string} + * @expose + */ + this.syntax = syntax || 'proto2'; + + /** + * Original field name. + * @type {string} + * @expose + */ + this.originalName = this.name; // Used to revert camelcase transformation on naming collisions + + /** + * Element implementation. Created in build() after types are resolved. + * @type {ProtoBuf.Element} + * @expose + */ + this.element = null; + + /** + * Key element implementation, for map fields. Created in build() after + * types are resolved. + * @type {ProtoBuf.Element} + * @expose + */ + this.keyElement = null; + + // Convert field names to camel case notation if the override is set + if (this.builder.options['convertFieldsToCamelCase'] && !(this instanceof Message.ExtensionField)) + this.name = ProtoBuf.Util.toCamelCase(this.name); + }; + + /** + * @alias ProtoBuf.Reflect.Message.Field.prototype + * @inner + */ + var FieldPrototype = Field.prototype = Object.create(T.prototype); + + /** + * Builds the field. + * @override + * @expose + */ + FieldPrototype.build = function() { + this.element = new Element(this.type, this.resolvedType, false, this.syntax); + if (this.map) + this.keyElement = new Element(this.keyType, undefined, true, this.syntax); + + // In proto3, fields do not have field presence, and every field is set to + // its type's default value ("", 0, 0.0, or false). + if (this.syntax === 'proto3' && !this.repeated && !this.map) + this.defaultValue = Element.defaultFieldValue(this.type); + + // Otherwise, default values are present when explicitly specified + else if (typeof this.options['default'] !== 'undefined') + this.defaultValue = this.verifyValue(this.options['default']); + }; + + /** + * Checks if the given value can be set for this field. + * @param {*} value Value to check + * @param {boolean=} skipRepeated Whether to skip the repeated value check or not. Defaults to false. + * @return {*} Verified, maybe adjusted, value + * @throws {Error} If the value cannot be set for this field + * @expose + */ + FieldPrototype.verifyValue = function(value, skipRepeated) { + skipRepeated = skipRepeated || false; + var self = this; + function fail(val, msg) { + throw Error("Illegal value for "+self.toString(true)+" of type "+self.type.name+": "+val+" ("+msg+")"); + } + if (value === null) { // NULL values for optional fields + if (this.required) + fail(typeof value, "required"); + if (this.syntax === 'proto3' && this.type !== ProtoBuf.TYPES["message"]) + fail(typeof value, "proto3 field without field presence cannot be null"); + return null; + } + var i; + if (this.repeated && !skipRepeated) { // Repeated values as arrays + if (!Array.isArray(value)) + value = [value]; + var res = []; + for (i=0; i 0; + + case ProtoBuf.TYPES["bytes"]: + return value.remaining() > 0; + + case ProtoBuf.TYPES["enum"]: + return value !== 0; + + case ProtoBuf.TYPES["message"]: + return value !== null; + default: + return true; + } + }; + + /** + * Encodes the specified field value to the specified buffer. + * @param {*} value Verified field value + * @param {ByteBuffer} buffer ByteBuffer to encode to + * @param {!ProtoBuf.Builder.Message} message Runtime message + * @return {ByteBuffer} The ByteBuffer for chaining + * @throws {Error} If the field cannot be encoded + * @expose + */ + FieldPrototype.encode = function(value, buffer, message) { + if (this.type === null || typeof this.type !== 'object') + throw Error("[INTERNAL] Unresolved type in "+this.toString(true)+": "+this.type); + if (value === null || (this.repeated && value.length == 0)) + return buffer; // Optional omitted + try { + if (this.repeated) { + var i; + // "Only repeated fields of primitive numeric types (types which use the varint, 32-bit, or 64-bit wire + // types) can be declared 'packed'." + if (this.options["packed"] && ProtoBuf.PACKABLE_WIRE_TYPES.indexOf(this.type.wireType) >= 0) { + // "All of the elements of the field are packed into a single key-value pair with wire type 2 + // (length-delimited). Each element is encoded the same way it would be normally, except without a + // tag preceding it." + buffer.writeVarint32((this.id << 3) | ProtoBuf.WIRE_TYPES.LDELIM); + buffer.ensureCapacity(buffer.offset += 1); // We do not know the length yet, so let's assume a varint of length 1 + var start = buffer.offset; // Remember where the contents begin + for (i=0; i 1) { // We need to move the contents + var contents = buffer.slice(start, buffer.offset); + start += varintLen-1; + buffer.offset = start; + buffer.append(contents); + } + buffer.writeVarint32(len, start-varintLen); + } else { + // "If your message definition has repeated elements (without the [packed=true] option), the encoded + // message has zero or more key-value pairs with the same tag number" + for (i=0; i= 0) { + n += ByteBuffer.calculateVarint32((this.id << 3) | ProtoBuf.WIRE_TYPES.LDELIM); + ni = 0; + for (i=0; i= 0) { + if (!skipRepeated) { + nBytes = buffer.readVarint32(); + nBytes = buffer.offset + nBytes; // Limit + var values = []; + while (buffer.offset < nBytes) + values.push(this.decode(this.type.wireType, buffer, true)); + return values; + } + // Read the next value otherwise... + } + + // Handle maps. + if (this.map) { + // Read one (key, value) submessage, and return [key, value] + var key = Element.defaultFieldValue(this.keyType); + value = Element.defaultFieldValue(this.type); + + // Read the length + nBytes = buffer.readVarint32(); + if (buffer.remaining() < nBytes) + throw Error("Illegal number of bytes for "+this.toString(true)+": "+nBytes+" required but got only "+buffer.remaining()); + + // Get a sub-buffer of this key/value submessage + var msgbuf = buffer.clone(); + msgbuf.limit = msgbuf.offset + nBytes; + buffer.offset += nBytes; + + while (msgbuf.remaining() > 0) { + var tag = msgbuf.readVarint32(); + wireType = tag & 0x07; + var id = tag >>> 3; + if (id === 1) { + key = this.keyElement.decode(msgbuf, wireType, id); + } else if (id === 2) { + value = this.element.decode(msgbuf, wireType, id); + } else { + throw Error("Unexpected tag in map field key/value submessage"); + } + } + + return [key, value]; + } + + // Handle singular and non-packed repeated field values. + return this.element.decode(buffer, wireType, this.id); + }; + + /** + * @alias ProtoBuf.Reflect.Message.Field + * @expose + */ + Reflect.Message.Field = Field; + + /** + * Constructs a new Message ExtensionField. + * @exports ProtoBuf.Reflect.Message.ExtensionField + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {!ProtoBuf.Reflect.Message} message Message reference + * @param {string} rule Rule, one of requried, optional, repeated + * @param {string} type Data type, e.g. int32 + * @param {string} name Field name + * @param {number} id Unique field id + * @param {!Object.=} options Options + * @constructor + * @extends ProtoBuf.Reflect.Message.Field + */ + var ExtensionField = function(builder, message, rule, type, name, id, options) { + Field.call(this, builder, message, rule, /* keytype = */ null, type, name, id, options); + + /** + * Extension reference. + * @type {!ProtoBuf.Reflect.Extension} + * @expose + */ + this.extension; + }; + + // Extends Field + ExtensionField.prototype = Object.create(Field.prototype); + + /** + * @alias ProtoBuf.Reflect.Message.ExtensionField + * @expose + */ + Reflect.Message.ExtensionField = ExtensionField; + + /** + * Constructs a new Message OneOf. + * @exports ProtoBuf.Reflect.Message.OneOf + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {!ProtoBuf.Reflect.Message} message Message reference + * @param {string} name OneOf name + * @constructor + * @extends ProtoBuf.Reflect.T + */ + var OneOf = function(builder, message, name) { + T.call(this, builder, message, name); + + /** + * Enclosed fields. + * @type {!Array.} + * @expose + */ + this.fields = []; + }; + + /** + * @alias ProtoBuf.Reflect.Message.OneOf + * @expose + */ + Reflect.Message.OneOf = OneOf; + + /** + * Constructs a new Enum. + * @exports ProtoBuf.Reflect.Enum + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {!ProtoBuf.Reflect.T} parent Parent Reflect object + * @param {string} name Enum name + * @param {Object.=} options Enum options + * @param {string?} syntax The syntax level (e.g., proto3) + * @constructor + * @extends ProtoBuf.Reflect.Namespace + */ + var Enum = function(builder, parent, name, options, syntax) { + Namespace.call(this, builder, parent, name, options, syntax); + + /** + * @override + */ + this.className = "Enum"; + + /** + * Runtime enum object. + * @type {Object.|null} + * @expose + */ + this.object = null; + }; + + /** + * Gets the string name of an enum value. + * @param {!ProtoBuf.Builder.Enum} enm Runtime enum + * @param {number} value Enum value + * @returns {?string} Name or `null` if not present + * @expose + */ + Enum.getName = function(enm, value) { + var keys = Object.keys(enm); + for (var i=0, key; i} + * @expose + */ + EnumPrototype.build = function(rebuild) { + if (this.object && !rebuild) + return this.object; + var enm = new ProtoBuf.Builder.Enum(), + values = this.getChildren(Enum.Value); + for (var i=0, k=values.length; i=} options Options + * @constructor + * @extends ProtoBuf.Reflect.Namespace + */ + var Service = function(builder, root, name, options) { + Namespace.call(this, builder, root, name, options); + + /** + * @override + */ + this.className = "Service"; + + /** + * Built runtime service class. + * @type {?function(new:ProtoBuf.Builder.Service)} + */ + this.clazz = null; + }; + + /** + * @alias ProtoBuf.Reflect.Service.prototype + * @inner + */ + var ServicePrototype = Service.prototype = Object.create(Namespace.prototype); + + /** + * Builds the service and returns the runtime counterpart, which is a fully functional class. + * @see ProtoBuf.Builder.Service + * @param {boolean=} rebuild Whether to rebuild or not + * @return {Function} Service class + * @throws {Error} If the message cannot be built + * @expose + */ + ServicePrototype.build = function(rebuild) { + if (this.clazz && !rebuild) + return this.clazz; + + // Create the runtime Service class in its own scope + return this.clazz = (function(ProtoBuf, T) { + + /** + * Constructs a new runtime Service. + * @name ProtoBuf.Builder.Service + * @param {function(string, ProtoBuf.Builder.Message, function(Error, ProtoBuf.Builder.Message=))=} rpcImpl RPC implementation receiving the method name and the message + * @class Barebone of all runtime services. + * @constructor + * @throws {Error} If the service cannot be created + */ + var Service = function(rpcImpl) { + ProtoBuf.Builder.Service.call(this); + + /** + * Service implementation. + * @name ProtoBuf.Builder.Service#rpcImpl + * @type {!function(string, ProtoBuf.Builder.Message, function(Error, ProtoBuf.Builder.Message=))} + * @expose + */ + this.rpcImpl = rpcImpl || function(name, msg, callback) { + // This is what a user has to implement: A function receiving the method name, the actual message to + // send (type checked) and the callback that's either provided with the error as its first + // argument or null and the actual response message. + setTimeout(callback.bind(this, Error("Not implemented, see: https://github.com/dcodeIO/ProtoBuf.js/wiki/Services")), 0); // Must be async! + }; + }; + + /** + * @alias ProtoBuf.Builder.Service.prototype + * @inner + */ + var ServicePrototype = Service.prototype = Object.create(ProtoBuf.Builder.Service.prototype); + + /** + * Asynchronously performs an RPC call using the given RPC implementation. + * @name ProtoBuf.Builder.Service.[Method] + * @function + * @param {!function(string, ProtoBuf.Builder.Message, function(Error, ProtoBuf.Builder.Message=))} rpcImpl RPC implementation + * @param {ProtoBuf.Builder.Message} req Request + * @param {function(Error, (ProtoBuf.Builder.Message|ByteBuffer|Buffer|string)=)} callback Callback receiving + * the error if any and the response either as a pre-parsed message or as its raw bytes + * @abstract + */ + + /** + * Asynchronously performs an RPC call using the instance's RPC implementation. + * @name ProtoBuf.Builder.Service#[Method] + * @function + * @param {ProtoBuf.Builder.Message} req Request + * @param {function(Error, (ProtoBuf.Builder.Message|ByteBuffer|Buffer|string)=)} callback Callback receiving + * the error if any and the response either as a pre-parsed message or as its raw bytes + * @abstract + */ + + var rpc = T.getChildren(ProtoBuf.Reflect.Service.RPCMethod); + for (var i=0; i} + * @expose + */ + var $optionsS; // cc needs this + + /** + * Service options. + * @name ProtoBuf.Builder.Service#$options + * @type {Object.} + * @expose + */ + var $options; + + /** + * Reflection type. + * @name ProtoBuf.Builder.Service.$type + * @type {!ProtoBuf.Reflect.Service} + * @expose + */ + var $typeS; + + /** + * Reflection type. + * @name ProtoBuf.Builder.Service#$type + * @type {!ProtoBuf.Reflect.Service} + * @expose + */ + var $type; + + if (Object.defineProperty) + Object.defineProperty(Service, "$options", { "value": T.buildOpt() }), + Object.defineProperty(ServicePrototype, "$options", { "value": Service["$options"] }), + Object.defineProperty(Service, "$type", { "value": T }), + Object.defineProperty(ServicePrototype, "$type", { "value": T }); + + return Service; + + })(ProtoBuf, this); + }; + + /** + * @alias ProtoBuf.Reflect.Service + * @expose + */ + Reflect.Service = Service; + + /** + * Abstract service method. + * @exports ProtoBuf.Reflect.Service.Method + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {!ProtoBuf.Reflect.Service} svc Service + * @param {string} name Method name + * @param {Object.=} options Options + * @constructor + * @extends ProtoBuf.Reflect.T + */ + var Method = function(builder, svc, name, options) { + T.call(this, builder, svc, name); + + /** + * @override + */ + this.className = "Service.Method"; + + /** + * Options. + * @type {Object.} + * @expose + */ + this.options = options || {}; + }; + + /** + * @alias ProtoBuf.Reflect.Service.Method.prototype + * @inner + */ + var MethodPrototype = Method.prototype = Object.create(T.prototype); + + /** + * Builds the method's '$options' property. + * @name ProtoBuf.Reflect.Service.Method#buildOpt + * @function + * @return {Object.} + */ + MethodPrototype.buildOpt = NamespacePrototype.buildOpt; + + /** + * @alias ProtoBuf.Reflect.Service.Method + * @expose + */ + Reflect.Service.Method = Method; + + /** + * RPC service method. + * @exports ProtoBuf.Reflect.Service.RPCMethod + * @param {!ProtoBuf.Builder} builder Builder reference + * @param {!ProtoBuf.Reflect.Service} svc Service + * @param {string} name Method name + * @param {string} request Request message name + * @param {string} response Response message name + * @param {boolean} request_stream Whether requests are streamed + * @param {boolean} response_stream Whether responses are streamed + * @param {Object.=} options Options + * @constructor + * @extends ProtoBuf.Reflect.Service.Method + */ + var RPCMethod = function(builder, svc, name, request, response, request_stream, response_stream, options) { + Method.call(this, builder, svc, name, options); + + /** + * @override + */ + this.className = "Service.RPCMethod"; + + /** + * Request message name. + * @type {string} + * @expose + */ + this.requestName = request; + + /** + * Response message name. + * @type {string} + * @expose + */ + this.responseName = response; + + /** + * Whether requests are streamed + * @type {bool} + * @expose + */ + this.requestStream = request_stream; + + /** + * Whether responses are streamed + * @type {bool} + * @expose + */ + this.responseStream = response_stream; + + /** + * Resolved request message type. + * @type {ProtoBuf.Reflect.Message} + * @expose + */ + this.resolvedRequestType = null; + + /** + * Resolved response message type. + * @type {ProtoBuf.Reflect.Message} + * @expose + */ + this.resolvedResponseType = null; + }; + + // Extends Method + RPCMethod.prototype = Object.create(Method.prototype); + + /** + * @alias ProtoBuf.Reflect.Service.RPCMethod + * @expose + */ + Reflect.Service.RPCMethod = RPCMethod; + + return Reflect; + + })(ProtoBuf); + + /** + * @alias ProtoBuf.Builder + * @expose + */ + ProtoBuf.Builder = (function(ProtoBuf, Lang, Reflect) { + "use strict"; + + /** + * Constructs a new Builder. + * @exports ProtoBuf.Builder + * @class Provides the functionality to build protocol messages. + * @param {Object.=} options Options + * @constructor + */ + var Builder = function(options) { + + /** + * Namespace. + * @type {ProtoBuf.Reflect.Namespace} + * @expose + */ + this.ns = new Reflect.Namespace(this, null, ""); // Global namespace + + /** + * Namespace pointer. + * @type {ProtoBuf.Reflect.T} + * @expose + */ + this.ptr = this.ns; + + /** + * Resolved flag. + * @type {boolean} + * @expose + */ + this.resolved = false; + + /** + * The current building result. + * @type {Object.|null} + * @expose + */ + this.result = null; + + /** + * Imported files. + * @type {Array.} + * @expose + */ + this.files = {}; + + /** + * Import root override. + * @type {?string} + * @expose + */ + this.importRoot = null; + + /** + * Options. + * @type {!Object.} + * @expose + */ + this.options = options || {}; + }; + + /** + * @alias ProtoBuf.Builder.prototype + * @inner + */ + var BuilderPrototype = Builder.prototype; + + // ----- Definition tests ----- + + /** + * Tests if a definition most likely describes a message. + * @param {!Object} def + * @returns {boolean} + * @expose + */ + Builder.isMessage = function(def) { + // Messages require a string name + if (typeof def["name"] !== 'string') + return false; + // Messages do not contain values (enum) or rpc methods (service) + if (typeof def["values"] !== 'undefined' || typeof def["rpc"] !== 'undefined') + return false; + return true; + }; + + /** + * Tests if a definition most likely describes a message field. + * @param {!Object} def + * @returns {boolean} + * @expose + */ + Builder.isMessageField = function(def) { + // Message fields require a string rule, name and type and an id + if (typeof def["rule"] !== 'string' || typeof def["name"] !== 'string' || typeof def["type"] !== 'string' || typeof def["id"] === 'undefined') + return false; + return true; + }; + + /** + * Tests if a definition most likely describes an enum. + * @param {!Object} def + * @returns {boolean} + * @expose + */ + Builder.isEnum = function(def) { + // Enums require a string name + if (typeof def["name"] !== 'string') + return false; + // Enums require at least one value + if (typeof def["values"] === 'undefined' || !Array.isArray(def["values"]) || def["values"].length === 0) + return false; + return true; + }; + + /** + * Tests if a definition most likely describes a service. + * @param {!Object} def + * @returns {boolean} + * @expose + */ + Builder.isService = function(def) { + // Services require a string name and an rpc object + if (typeof def["name"] !== 'string' || typeof def["rpc"] !== 'object' || !def["rpc"]) + return false; + return true; + }; + + /** + * Tests if a definition most likely describes an extended message + * @param {!Object} def + * @returns {boolean} + * @expose + */ + Builder.isExtend = function(def) { + // Extends rquire a string ref + if (typeof def["ref"] !== 'string') + return false; + return true; + }; + + // ----- Building ----- + + /** + * Resets the pointer to the root namespace. + * @returns {!ProtoBuf.Builder} this + * @expose + */ + BuilderPrototype.reset = function() { + this.ptr = this.ns; + return this; + }; + + /** + * Defines a namespace on top of the current pointer position and places the pointer on it. + * @param {string} namespace + * @return {!ProtoBuf.Builder} this + * @expose + */ + BuilderPrototype.define = function(namespace) { + if (typeof namespace !== 'string' || !Lang.TYPEREF.test(namespace)) + throw Error("illegal namespace: "+namespace); + namespace.split(".").forEach(function(part) { + var ns = this.ptr.getChild(part); + if (ns === null) // Keep existing + this.ptr.addChild(ns = new Reflect.Namespace(this, this.ptr, part)); + this.ptr = ns; + }, this); + return this; + }; + + /** + * Creates the specified definitions at the current pointer position. + * @param {!Array.} defs Messages, enums or services to create + * @returns {!ProtoBuf.Builder} this + * @throws {Error} If a message definition is invalid + * @expose + */ + BuilderPrototype.create = function(defs) { + if (!defs) + return this; // Nothing to create + if (!Array.isArray(defs)) + defs = [defs]; + else { + if (defs.length === 0) + return this; + defs = defs.slice(); + } + + // It's quite hard to keep track of scopes and memory here, so let's do this iteratively. + var stack = [defs]; + while (stack.length > 0) { + defs = stack.pop(); + + if (!Array.isArray(defs)) // Stack always contains entire namespaces + throw Error("not a valid namespace: "+JSON.stringify(defs)); + + while (defs.length > 0) { + var def = defs.shift(); // Namespaces always contain an array of messages, enums and services + + if (Builder.isMessage(def)) { + var obj = new Reflect.Message(this, this.ptr, def["name"], def["options"], def["isGroup"], def["syntax"]); + + // Create OneOfs + var oneofs = {}; + if (def["oneofs"]) + Object.keys(def["oneofs"]).forEach(function(name) { + obj.addChild(oneofs[name] = new Reflect.Message.OneOf(this, obj, name)); + }, this); + + // Create fields + if (def["fields"]) + def["fields"].forEach(function(fld) { + if (obj.getChild(fld["id"]|0) !== null) + throw Error("duplicate or invalid field id in "+obj.name+": "+fld['id']); + if (fld["options"] && typeof fld["options"] !== 'object') + throw Error("illegal field options in "+obj.name+"#"+fld["name"]); + var oneof = null; + if (typeof fld["oneof"] === 'string' && !(oneof = oneofs[fld["oneof"]])) + throw Error("illegal oneof in "+obj.name+"#"+fld["name"]+": "+fld["oneof"]); + fld = new Reflect.Message.Field(this, obj, fld["rule"], fld["keytype"], fld["type"], fld["name"], fld["id"], fld["options"], oneof, def["syntax"]); + if (oneof) + oneof.fields.push(fld); + obj.addChild(fld); + }, this); + + // Push children to stack + var subObj = []; + if (def["enums"]) + def["enums"].forEach(function(enm) { + subObj.push(enm); + }); + if (def["messages"]) + def["messages"].forEach(function(msg) { + subObj.push(msg); + }); + if (def["services"]) + def["services"].forEach(function(svc) { + subObj.push(svc); + }); + + // Set extension ranges + if (def["extensions"]) { + if (typeof def["extensions"][0] === 'number') // pre 5.0.1 + obj.extensions = [ def["extensions"] ]; + else + obj.extensions = def["extensions"]; + } + + // Create on top of current namespace + this.ptr.addChild(obj); + if (subObj.length > 0) { + stack.push(defs); // Push the current level back + defs = subObj; // Continue processing sub level + subObj = null; + this.ptr = obj; // And move the pointer to this namespace + obj = null; + continue; + } + subObj = null; + + } else if (Builder.isEnum(def)) { + + obj = new Reflect.Enum(this, this.ptr, def["name"], def["options"], def["syntax"]); + def["values"].forEach(function(val) { + obj.addChild(new Reflect.Enum.Value(this, obj, val["name"], val["id"])); + }, this); + this.ptr.addChild(obj); + + } else if (Builder.isService(def)) { + + obj = new Reflect.Service(this, this.ptr, def["name"], def["options"]); + Object.keys(def["rpc"]).forEach(function(name) { + var mtd = def["rpc"][name]; + obj.addChild(new Reflect.Service.RPCMethod(this, obj, name, mtd["request"], mtd["response"], !!mtd["request_stream"], !!mtd["response_stream"], mtd["options"])); + }, this); + this.ptr.addChild(obj); + + } else if (Builder.isExtend(def)) { + + obj = this.ptr.resolve(def["ref"], true); + if (obj) { + def["fields"].forEach(function(fld) { + if (obj.getChild(fld['id']|0) !== null) + throw Error("duplicate extended field id in "+obj.name+": "+fld['id']); + // Check if field id is allowed to be extended + if (obj.extensions) { + var valid = false; + obj.extensions.forEach(function(range) { + if (fld["id"] >= range[0] && fld["id"] <= range[1]) + valid = true; + }); + if (!valid) + throw Error("illegal extended field id in "+obj.name+": "+fld['id']+" (not within valid ranges)"); + } + // Convert extension field names to camel case notation if the override is set + var name = fld["name"]; + if (this.options['convertFieldsToCamelCase']) + name = ProtoBuf.Util.toCamelCase(name); + // see #161: Extensions use their fully qualified name as their runtime key and... + var field = new Reflect.Message.ExtensionField(this, obj, fld["rule"], fld["type"], this.ptr.fqn()+'.'+name, fld["id"], fld["options"]); + // ...are added on top of the current namespace as an extension which is used for + // resolving their type later on (the extension always keeps the original name to + // prevent naming collisions) + var ext = new Reflect.Extension(this, this.ptr, fld["name"], field); + field.extension = ext; + this.ptr.addChild(ext); + obj.addChild(field); + }, this); + + } else if (!/\.?google\.protobuf\./.test(def["ref"])) // Silently skip internal extensions + throw Error("extended message "+def["ref"]+" is not defined"); + + } else + throw Error("not a valid definition: "+JSON.stringify(def)); + + def = null; + obj = null; + } + // Break goes here + defs = null; + this.ptr = this.ptr.parent; // Namespace done, continue at parent + } + this.resolved = false; // Require re-resolve + this.result = null; // Require re-build + return this; + }; + + /** + * Propagates syntax to all children. + * @param {!Object} parent + * @inner + */ + function propagateSyntax(parent) { + if (parent['messages']) { + parent['messages'].forEach(function(child) { + child["syntax"] = parent["syntax"]; + propagateSyntax(child); + }); + } + if (parent['enums']) { + parent['enums'].forEach(function(child) { + child["syntax"] = parent["syntax"]; + }); + } + } + + /** + * Imports another definition into this builder. + * @param {Object.} json Parsed import + * @param {(string|{root: string, file: string})=} filename Imported file name + * @returns {!ProtoBuf.Builder} this + * @throws {Error} If the definition or file cannot be imported + * @expose + */ + BuilderPrototype["import"] = function(json, filename) { + var delim = '/'; + + // Make sure to skip duplicate imports + + if (typeof filename === 'string') { + + if (ProtoBuf.Util.IS_NODE) + filename = require("path")['resolve'](filename); + if (this.files[filename] === true) + return this.reset(); + this.files[filename] = true; + + } else if (typeof filename === 'object') { // Object with root, file. + + var root = filename.root; + if (ProtoBuf.Util.IS_NODE) + root = require("path")['resolve'](root); + if (root.indexOf("\\") >= 0 || filename.file.indexOf("\\") >= 0) + delim = '\\'; + var fname = root + delim + filename.file; + if (this.files[fname] === true) + return this.reset(); + this.files[fname] = true; + } + + // Import imports + + if (json['imports'] && json['imports'].length > 0) { + var importRoot, + resetRoot = false; + + if (typeof filename === 'object') { // If an import root is specified, override + + this.importRoot = filename["root"]; resetRoot = true; // ... and reset afterwards + importRoot = this.importRoot; + filename = filename["file"]; + if (importRoot.indexOf("\\") >= 0 || filename.indexOf("\\") >= 0) + delim = '\\'; + + } else if (typeof filename === 'string') { + + if (this.importRoot) // If import root is overridden, use it + importRoot = this.importRoot; + else { // Otherwise compute from filename + if (filename.indexOf("/") >= 0) { // Unix + importRoot = filename.replace(/\/[^\/]*$/, ""); + if (/* /file.proto */ importRoot === "") + importRoot = "/"; + } else if (filename.indexOf("\\") >= 0) { // Windows + importRoot = filename.replace(/\\[^\\]*$/, ""); + delim = '\\'; + } else + importRoot = "."; + } + + } else + importRoot = null; + + for (var i=0; i)=} path Specifies what to return. If omitted, the entire namespace will be returned. + * @returns {!ProtoBuf.Builder.Message|!Object.} + * @throws {Error} If a type could not be resolved + * @expose + */ + BuilderPrototype.build = function(path) { + this.reset(); + if (!this.resolved) + this.resolveAll(), + this.resolved = true, + this.result = null; // Require re-build + if (this.result === null) // (Re-)Build + this.result = this.ns.build(); + if (!path) + return this.result; + var part = typeof path === 'string' ? path.split(".") : path, + ptr = this.result; // Build namespace pointer (no hasChild etc.) + for (var i=0; i=} contents Initial contents + * @constructor + */ + var Map = function(field, contents) { + if (!field.map) + throw Error("field is not a map"); + + /** + * The field corresponding to this map. + * @type {!ProtoBuf.Reflect.Field} + */ + this.field = field; + + /** + * Element instance corresponding to key type. + * @type {!ProtoBuf.Reflect.Element} + */ + this.keyElem = new Reflect.Element(field.keyType, null, true, field.syntax); + + /** + * Element instance corresponding to value type. + * @type {!ProtoBuf.Reflect.Element} + */ + this.valueElem = new Reflect.Element(field.type, field.resolvedType, false, field.syntax); + + /** + * Internal map: stores mapping of (string form of key) -> (key, value) + * pair. + * + * We provide map semantics for arbitrary key types, but we build on top + * of an Object, which has only string keys. In order to avoid the need + * to convert a string key back to its native type in many situations, + * we store the native key value alongside the value. Thus, we only need + * a one-way mapping from a key type to its string form that guarantees + * uniqueness and equality (i.e., str(K1) === str(K2) if and only if K1 + * === K2). + * + * @type {!Object} + */ + this.map = {}; + + /** + * Returns the number of elements in the map. + */ + Object.defineProperty(this, "size", { + get: function() { return Object.keys(this.map).length; } + }); + + // Fill initial contents from a raw object. + if (contents) { + var keys = Object.keys(contents); + for (var i = 0; i < keys.length; i++) { + var key = this.keyElem.valueFromString(keys[i]); + var val = this.valueElem.verifyValue(contents[keys[i]]); + this.map[this.keyElem.valueToString(key)] = + { key: key, value: val }; + } + } + }; + + var MapPrototype = Map.prototype; + + /** + * Helper: return an iterator over an array. + * @param {!Array<*>} arr the array + * @returns {!Object} an iterator + * @inner + */ + function arrayIterator(arr) { + var idx = 0; + return { + next: function() { + if (idx < arr.length) + return { done: false, value: arr[idx++] }; + return { done: true }; + } + } + } + + /** + * Clears the map. + */ + MapPrototype.clear = function() { + this.map = {}; + }; + + /** + * Deletes a particular key from the map. + * @returns {boolean} Whether any entry with this key was deleted. + */ + MapPrototype["delete"] = function(key) { + var keyValue = this.keyElem.valueToString(this.keyElem.verifyValue(key)); + var hadKey = keyValue in this.map; + delete this.map[keyValue]; + return hadKey; + }; + + /** + * Returns an iterator over [key, value] pairs in the map. + * @returns {Object} The iterator + */ + MapPrototype.entries = function() { + var entries = []; + var strKeys = Object.keys(this.map); + for (var i = 0, entry; i < strKeys.length; i++) + entries.push([(entry=this.map[strKeys[i]]).key, entry.value]); + return arrayIterator(entries); + }; + + /** + * Returns an iterator over keys in the map. + * @returns {Object} The iterator + */ + MapPrototype.keys = function() { + var keys = []; + var strKeys = Object.keys(this.map); + for (var i = 0; i < strKeys.length; i++) + keys.push(this.map[strKeys[i]].key); + return arrayIterator(keys); + }; + + /** + * Returns an iterator over values in the map. + * @returns {!Object} The iterator + */ + MapPrototype.values = function() { + var values = []; + var strKeys = Object.keys(this.map); + for (var i = 0; i < strKeys.length; i++) + values.push(this.map[strKeys[i]].value); + return arrayIterator(values); + }; + + /** + * Iterates over entries in the map, calling a function on each. + * @param {function(this:*, *, *, *)} cb The callback to invoke with value, key, and map arguments. + * @param {Object=} thisArg The `this` value for the callback + */ + MapPrototype.forEach = function(cb, thisArg) { + var strKeys = Object.keys(this.map); + for (var i = 0, entry; i < strKeys.length; i++) + cb.call(thisArg, (entry=this.map[strKeys[i]]).value, entry.key, this); + }; + + /** + * Sets a key in the map to the given value. + * @param {*} key The key + * @param {*} value The value + * @returns {!ProtoBuf.Map} The map instance + */ + MapPrototype.set = function(key, value) { + var keyValue = this.keyElem.verifyValue(key); + var valValue = this.valueElem.verifyValue(value); + this.map[this.keyElem.valueToString(keyValue)] = + { key: keyValue, value: valValue }; + return this; + }; + + /** + * Gets the value corresponding to a key in the map. + * @param {*} key The key + * @returns {*|undefined} The value, or `undefined` if key not present + */ + MapPrototype.get = function(key) { + var keyValue = this.keyElem.valueToString(this.keyElem.verifyValue(key)); + if (!(keyValue in this.map)) + return undefined; + return this.map[keyValue].value; + }; + + /** + * Determines whether the given key is present in the map. + * @param {*} key The key + * @returns {boolean} `true` if the key is present + */ + MapPrototype.has = function(key) { + var keyValue = this.keyElem.valueToString(this.keyElem.verifyValue(key)); + return (keyValue in this.map); + }; + + return Map; + })(ProtoBuf, ProtoBuf.Reflect); + + + /** + * Loads a .proto string and returns the Builder. + * @param {string} proto .proto file contents + * @param {(ProtoBuf.Builder|string|{root: string, file: string})=} builder Builder to append to. Will create a new one if omitted. + * @param {(string|{root: string, file: string})=} filename The corresponding file name if known. Must be specified for imports. + * @return {ProtoBuf.Builder} Builder to create new messages + * @throws {Error} If the definition cannot be parsed or built + * @expose + */ + ProtoBuf.loadProto = function(proto, builder, filename) { + if (typeof builder === 'string' || (builder && typeof builder["file"] === 'string' && typeof builder["root"] === 'string')) + filename = builder, + builder = undefined; + return ProtoBuf.loadJson(ProtoBuf.DotProto.Parser.parse(proto), builder, filename); + }; + + /** + * Loads a .proto string and returns the Builder. This is an alias of {@link ProtoBuf.loadProto}. + * @function + * @param {string} proto .proto file contents + * @param {(ProtoBuf.Builder|string)=} builder Builder to append to. Will create a new one if omitted. + * @param {(string|{root: string, file: string})=} filename The corresponding file name if known. Must be specified for imports. + * @return {ProtoBuf.Builder} Builder to create new messages + * @throws {Error} If the definition cannot be parsed or built + * @expose + */ + ProtoBuf.protoFromString = ProtoBuf.loadProto; // Legacy + + /** + * Loads a .proto file and returns the Builder. + * @param {string|{root: string, file: string}} filename Path to proto file or an object specifying 'file' with + * an overridden 'root' path for all imported files. + * @param {function(?Error, !ProtoBuf.Builder=)=} callback Callback that will receive `null` as the first and + * the Builder as its second argument on success, otherwise the error as its first argument. If omitted, the + * file will be read synchronously and this function will return the Builder. + * @param {ProtoBuf.Builder=} builder Builder to append to. Will create a new one if omitted. + * @return {?ProtoBuf.Builder|undefined} The Builder if synchronous (no callback specified, will be NULL if the + * request has failed), else undefined + * @expose + */ + ProtoBuf.loadProtoFile = function(filename, callback, builder) { + if (callback && typeof callback === 'object') + builder = callback, + callback = null; + else if (!callback || typeof callback !== 'function') + callback = null; + if (callback) + return ProtoBuf.Util.fetch(typeof filename === 'string' ? filename : filename["root"]+"/"+filename["file"], function(contents) { + if (contents === null) { + callback(Error("Failed to fetch file")); + return; + } + try { + callback(null, ProtoBuf.loadProto(contents, builder, filename)); + } catch (e) { + callback(e); + } + }); + var contents = ProtoBuf.Util.fetch(typeof filename === 'object' ? filename["root"]+"/"+filename["file"] : filename); + return contents === null ? null : ProtoBuf.loadProto(contents, builder, filename); + }; + + /** + * Loads a .proto file and returns the Builder. This is an alias of {@link ProtoBuf.loadProtoFile}. + * @function + * @param {string|{root: string, file: string}} filename Path to proto file or an object specifying 'file' with + * an overridden 'root' path for all imported files. + * @param {function(?Error, !ProtoBuf.Builder=)=} callback Callback that will receive `null` as the first and + * the Builder as its second argument on success, otherwise the error as its first argument. If omitted, the + * file will be read synchronously and this function will return the Builder. + * @param {ProtoBuf.Builder=} builder Builder to append to. Will create a new one if omitted. + * @return {!ProtoBuf.Builder|undefined} The Builder if synchronous (no callback specified, will be NULL if the + * request has failed), else undefined + * @expose + */ + ProtoBuf.protoFromFile = ProtoBuf.loadProtoFile; // Legacy + + + /** + * Constructs a new empty Builder. + * @param {Object.=} options Builder options, defaults to global options set on ProtoBuf + * @return {!ProtoBuf.Builder} Builder + * @expose + */ + ProtoBuf.newBuilder = function(options) { + options = options || {}; + if (typeof options['convertFieldsToCamelCase'] === 'undefined') + options['convertFieldsToCamelCase'] = ProtoBuf.convertFieldsToCamelCase; + if (typeof options['populateAccessors'] === 'undefined') + options['populateAccessors'] = ProtoBuf.populateAccessors; + return new ProtoBuf.Builder(options); + }; + + /** + * Loads a .json definition and returns the Builder. + * @param {!*|string} json JSON definition + * @param {(ProtoBuf.Builder|string|{root: string, file: string})=} builder Builder to append to. Will create a new one if omitted. + * @param {(string|{root: string, file: string})=} filename The corresponding file name if known. Must be specified for imports. + * @return {ProtoBuf.Builder} Builder to create new messages + * @throws {Error} If the definition cannot be parsed or built + * @expose + */ + ProtoBuf.loadJson = function(json, builder, filename) { + if (typeof builder === 'string' || (builder && typeof builder["file"] === 'string' && typeof builder["root"] === 'string')) + filename = builder, + builder = null; + if (!builder || typeof builder !== 'object') + builder = ProtoBuf.newBuilder(); + if (typeof json === 'string') + json = JSON.parse(json); + builder["import"](json, filename); + builder.resolveAll(); + return builder; + }; + + /** + * Loads a .json file and returns the Builder. + * @param {string|!{root: string, file: string}} filename Path to json file or an object specifying 'file' with + * an overridden 'root' path for all imported files. + * @param {function(?Error, !ProtoBuf.Builder=)=} callback Callback that will receive `null` as the first and + * the Builder as its second argument on success, otherwise the error as its first argument. If omitted, the + * file will be read synchronously and this function will return the Builder. + * @param {ProtoBuf.Builder=} builder Builder to append to. Will create a new one if omitted. + * @return {?ProtoBuf.Builder|undefined} The Builder if synchronous (no callback specified, will be NULL if the + * request has failed), else undefined + * @expose + */ + ProtoBuf.loadJsonFile = function(filename, callback, builder) { + if (callback && typeof callback === 'object') + builder = callback, + callback = null; + else if (!callback || typeof callback !== 'function') + callback = null; + if (callback) + return ProtoBuf.Util.fetch(typeof filename === 'string' ? filename : filename["root"]+"/"+filename["file"], function(contents) { + if (contents === null) { + callback(Error("Failed to fetch file")); + return; + } + try { + callback(null, ProtoBuf.loadJson(JSON.parse(contents), builder, filename)); + } catch (e) { + callback(e); + } + }); + var contents = ProtoBuf.Util.fetch(typeof filename === 'object' ? filename["root"]+"/"+filename["file"] : filename); + return contents === null ? null : ProtoBuf.loadJson(JSON.parse(contents), builder, filename); + }; + + return ProtoBuf; +}); + +(function() { + 'use strict'; + + function validatePrivKey(privKey) { + if (privKey === undefined || !(privKey instanceof ArrayBuffer) || privKey.byteLength != 32) { + throw new Error("Invalid private key"); + } + } + function validatePubKeyFormat(pubKey) { + if (pubKey === undefined || ((pubKey.byteLength != 33 || new Uint8Array(pubKey)[0] != 5) && pubKey.byteLength != 32)) { + throw new Error("Invalid public key"); + } + if (pubKey.byteLength == 33) { + return pubKey.slice(1); + } else { + console.error("WARNING: Expected pubkey of length 33, please report the ST and client that generated the pubkey"); + return pubKey; + } + } + + function processKeys(raw_keys) { + // prepend version byte + var origPub = new Uint8Array(raw_keys.pubKey); + var pub = new Uint8Array(33); + pub.set(origPub, 1); + pub[0] = 5; + + return { pubKey: pub.buffer, privKey: raw_keys.privKey }; + } + + function wrapCurve25519(curve25519) { + return { + // Curve 25519 crypto + createKeyPair: function(privKey) { + validatePrivKey(privKey); + var raw_keys = curve25519.keyPair(privKey); + if (raw_keys instanceof Promise) { + return raw_keys.then(processKeys); + } else { + return processKeys(raw_keys); + } + }, + ECDHE: function(pubKey, privKey) { + pubKey = validatePubKeyFormat(pubKey); + validatePrivKey(privKey); + + if (pubKey === undefined || pubKey.byteLength != 32) { + throw new Error("Invalid public key"); + } + + return curve25519.sharedSecret(pubKey, privKey); + }, + Ed25519Sign: function(privKey, message) { + validatePrivKey(privKey); + + if (message === undefined) { + throw new Error("Invalid message"); + } + + return curve25519.sign(privKey, message); + }, + Ed25519Verify: function(pubKey, msg, sig) { + pubKey = validatePubKeyFormat(pubKey); + + if (pubKey === undefined || pubKey.byteLength != 32) { + throw new Error("Invalid public key"); + } + + if (msg === undefined) { + throw new Error("Invalid message"); + } + + if (sig === undefined || sig.byteLength != 64) { + throw new Error("Invalid signature"); + } + + return curve25519.verify(pubKey, msg, sig); + } + }; + } + + Internal.Curve = wrapCurve25519(Internal.curve25519); + Internal.Curve.async = wrapCurve25519(Internal.curve25519_async); + + function wrapCurve(curve) { + return { + generateKeyPair: function() { + var privKey = Internal.crypto.getRandomBytes(32); + return curve.createKeyPair(privKey); + }, + createKeyPair: function(privKey) { + return curve.createKeyPair(privKey); + }, + calculateAgreement: function(pubKey, privKey) { + return curve.ECDHE(pubKey, privKey); + }, + verifySignature: function(pubKey, msg, sig) { + return curve.Ed25519Verify(pubKey, msg, sig); + }, + calculateSignature: function(privKey, message) { + return curve.Ed25519Sign(privKey, message); + } + }; + } + + libsignal.Curve = wrapCurve(Internal.Curve); + libsignal.Curve.async = wrapCurve(Internal.Curve.async); + +})(); + +/* + * vim: ts=4:sw=4 + */ + +var Internal = Internal || {}; + +(function() { + 'use strict'; + + var crypto = window.crypto; + + if (!crypto || !crypto.subtle || typeof crypto.getRandomValues !== 'function') { + throw new Error('WebCrypto not found'); + } + + Internal.crypto = { + getRandomBytes: function(size) { + var array = new Uint8Array(size); + crypto.getRandomValues(array); + return array.buffer; + }, + encrypt: function(key, data, iv) { + return crypto.subtle.importKey('raw', key, {name: 'AES-CBC'}, false, ['encrypt']).then(function(key) { + return crypto.subtle.encrypt({name: 'AES-CBC', iv: new Uint8Array(iv)}, key, data); + }); + }, + decrypt: function(key, data, iv) { + return crypto.subtle.importKey('raw', key, {name: 'AES-CBC'}, false, ['decrypt']).then(function(key) { + return crypto.subtle.decrypt({name: 'AES-CBC', iv: new Uint8Array(iv)}, key, data); + }); + }, + sign: function(key, data) { + return crypto.subtle.importKey('raw', key, {name: 'HMAC', hash: {name: 'SHA-256'}}, false, ['sign']).then(function(key) { + return crypto.subtle.sign( {name: 'HMAC', hash: 'SHA-256'}, key, data); + }); + }, + + hash: function(data) { + return crypto.subtle.digest({name: 'SHA-512'}, data); + }, + + HKDF: function(input, salt, info) { + // Specific implementation of RFC 5869 that only returns the first 3 32-byte chunks + // TODO: We dont always need the third chunk, we might skip it + return Internal.crypto.sign(salt, input).then(function(PRK) { + var infoBuffer = new ArrayBuffer(info.byteLength + 1 + 32); + var infoArray = new Uint8Array(infoBuffer); + infoArray.set(new Uint8Array(info), 32); + infoArray[infoArray.length - 1] = 1; + return Internal.crypto.sign(PRK, infoBuffer.slice(32)).then(function(T1) { + infoArray.set(new Uint8Array(T1)); + infoArray[infoArray.length - 1] = 2; + return Internal.crypto.sign(PRK, infoBuffer).then(function(T2) { + infoArray.set(new Uint8Array(T2)); + infoArray[infoArray.length - 1] = 3; + return Internal.crypto.sign(PRK, infoBuffer).then(function(T3) { + return [ T1, T2, T3 ]; + }); + }); + }); + }); + }, + + // Curve 25519 crypto + createKeyPair: function(privKey) { + if (privKey === undefined) { + privKey = Internal.crypto.getRandomBytes(32); + } + return Internal.Curve.async.createKeyPair(privKey); + }, + ECDHE: function(pubKey, privKey) { + return Internal.Curve.async.ECDHE(pubKey, privKey); + }, + Ed25519Sign: function(privKey, message) { + return Internal.Curve.async.Ed25519Sign(privKey, message); + }, + Ed25519Verify: function(pubKey, msg, sig) { + return Internal.Curve.async.Ed25519Verify(pubKey, msg, sig); + } + }; + + + // HKDF for TextSecure has a bit of additional handling - salts always end up being 32 bytes + Internal.HKDF = function(input, salt, info) { + if (salt.byteLength != 32) { + throw new Error("Got salt of incorrect length"); + } + + return Internal.crypto.HKDF(input, salt, util.toArrayBuffer(info)); + }; + + Internal.verifyMAC = function(data, key, mac, length) { + return Internal.crypto.sign(key, data).then(function(calculated_mac) { + if (mac.byteLength != length || calculated_mac.byteLength < length) { + throw new Error("Bad MAC length"); + } + var a = new Uint8Array(calculated_mac); + var b = new Uint8Array(mac); + var result = 0; + for (var i=0; i < mac.byteLength; ++i) { + result = result | (a[i] ^ b[i]); + } + if (result !== 0) { + throw new Error("Bad MAC"); + } + }); + }; + + libsignal.HKDF = { + deriveSecrets: function(input, salt, info) { + return Internal.HKDF(input, salt, info); + } + }; + + libsignal.crypto = { + encrypt: function(key, data, iv) { + return Internal.crypto.encrypt(key, data, iv); + }, + decrypt: function(key, data, iv) { + return Internal.crypto.decrypt(key, data, iv); + }, + calculateMAC: function(key, data) { + return Internal.crypto.sign(key, data); + }, + verifyMAC: function(data, key, mac, length) { + return Internal.verifyMAC(data, key, mac, length); + }, + getRandomBytes: function(size) { + return Internal.crypto.getRandomBytes(size); + } + }; + +})(); + +/* + * vim: ts=4:sw=4 + */ + +var util = (function() { + 'use strict'; + + var StaticArrayBufferProto = new ArrayBuffer().__proto__; + + return { + toString: function(thing) { + if (typeof thing == 'string') { + return thing; + } + return new dcodeIO.ByteBuffer.wrap(thing).toString('binary'); + }, + toArrayBuffer: function(thing) { + if (thing === undefined) { + return undefined; + } + if (thing === Object(thing)) { + if (thing.__proto__ == StaticArrayBufferProto) { + return thing; + } + } + + var str; + if (typeof thing == "string") { + str = thing; + } else { + throw new Error("Tried to convert a non-string of type " + typeof thing + " to an array buffer"); + } + return new dcodeIO.ByteBuffer.wrap(thing, 'binary').toArrayBuffer(); + }, + isEqual: function(a, b) { + // TODO: Special-case arraybuffers, etc + if (a === undefined || b === undefined) { + return false; + } + a = util.toString(a); + b = util.toString(b); + var maxLength = Math.max(a.length, b.length); + if (maxLength < 5) { + throw new Error("a/b compare too short"); + } + return a.substring(0, Math.min(maxLength, a.length)) == b.substring(0, Math.min(maxLength, b.length)); + } + }; +})(); + +function isNonNegativeInteger(n) { + return (typeof n === 'number' && (n % 1) === 0 && n >= 0); +} + +var KeyHelper = { + generateIdentityKeyPair: function() { + return Internal.crypto.createKeyPair(); + }, + + generateRegistrationId: function() { + var registrationId = new Uint16Array(Internal.crypto.getRandomBytes(2))[0]; + return registrationId & 0x3fff; + }, + + generateSignedPreKey: function (identityKeyPair, signedKeyId) { + if (!(identityKeyPair.privKey instanceof ArrayBuffer) || + identityKeyPair.privKey.byteLength != 32 || + !(identityKeyPair.pubKey instanceof ArrayBuffer) || + identityKeyPair.pubKey.byteLength != 33) { + throw new TypeError('Invalid argument for identityKeyPair'); + } + if (!isNonNegativeInteger(signedKeyId)) { + throw new TypeError( + 'Invalid argument for signedKeyId: ' + signedKeyId + ); + } + + return Internal.crypto.createKeyPair().then(function(keyPair) { + return Internal.crypto.Ed25519Sign(identityKeyPair.privKey, keyPair.pubKey).then(function(sig) { + return { + keyId : signedKeyId, + keyPair : keyPair, + signature : sig + }; + }); + }); + }, + + generatePreKey: function(keyId) { + if (!isNonNegativeInteger(keyId)) { + throw new TypeError('Invalid argument for keyId: ' + keyId); + } + + return Internal.crypto.createKeyPair().then(function(keyPair) { + return { keyId: keyId, keyPair: keyPair }; + }); + } +}; + +libsignal.KeyHelper = KeyHelper; + +var Internal = Internal || {}; + +Internal.protoText = function() { + var protoText = {}; + + protoText['protos/WhisperTextProtocol.proto'] = + 'package textsecure;\n' + + 'option java_package = "org.whispersystems.libsignal.protocol";\n' + + 'option java_outer_classname = "WhisperProtos";\n' + + 'message WhisperMessage {\n' + + ' optional bytes ephemeralKey = 1;\n' + + ' optional uint32 counter = 2;\n' + + ' optional uint32 previousCounter = 3;\n' + + ' optional bytes ciphertext = 4; // PushMessageContent\n' + + '}\n' + + 'message PreKeyWhisperMessage {\n' + + ' optional uint32 registrationId = 5;\n' + + ' optional uint32 preKeyId = 1;\n' + + ' optional uint32 signedPreKeyId = 6;\n' + + ' optional bytes baseKey = 2;\n' + + ' optional bytes identityKey = 3;\n' + + ' optional bytes message = 4; // WhisperMessage\n' + + '}\n' + + 'message KeyExchangeMessage {\n' + + ' optional uint32 id = 1;\n' + + ' optional bytes baseKey = 2;\n' + + ' optional bytes ephemeralKey = 3;\n' + + ' optional bytes identityKey = 4;\n' + + ' optional bytes baseKeySignature = 5;\n' + + '}\n' + +'' ; + + return protoText; +}(); +/* vim: ts=4:sw=4 */ +var Internal = Internal || {}; + +Internal.protobuf = function() { + 'use strict'; + + function loadProtoBufs(filename) { + return dcodeIO.ProtoBuf.loadProto(Internal.protoText['protos/' + filename]).build('textsecure'); + } + + var protocolMessages = loadProtoBufs('WhisperTextProtocol.proto'); + + return { + WhisperMessage : protocolMessages.WhisperMessage, + PreKeyWhisperMessage : protocolMessages.PreKeyWhisperMessage + }; +}(); + +/* + * vim: ts=4:sw=4 + */ + +var Internal = Internal || {}; + +Internal.BaseKeyType = { + OURS: 1, + THEIRS: 2 +}; +Internal.ChainType = { + SENDING: 1, + RECEIVING: 2 +}; + +Internal.SessionRecord = function() { + 'use strict'; + var ARCHIVED_STATES_MAX_LENGTH = 40; + var OLD_RATCHETS_MAX_LENGTH = 10; + var SESSION_RECORD_VERSION = 'v1'; + + var StaticByteBufferProto = new dcodeIO.ByteBuffer().__proto__; + var StaticArrayBufferProto = new ArrayBuffer().__proto__; + var StaticUint8ArrayProto = new Uint8Array().__proto__; + + function isStringable(thing) { + return (thing === Object(thing) && + (thing.__proto__ == StaticArrayBufferProto || + thing.__proto__ == StaticUint8ArrayProto || + thing.__proto__ == StaticByteBufferProto)); + } + function ensureStringed(thing) { + if (typeof thing == "string" || typeof thing == "number" || typeof thing == "boolean") { + return thing; + } else if (isStringable(thing)) { + return util.toString(thing); + } else if (thing instanceof Array) { + var array = []; + for (var i = 0; i < thing.length; i++) { + array[i] = ensureStringed(thing[i]); + } + return array; + } else if (thing === Object(thing)) { + var obj = {}; + for (var key in thing) { + try { + obj[key] = ensureStringed(thing[key]); + } catch (ex) { + console.log('Error serializing key', key); + throw ex; + } + } + return obj; + } else if (thing === null) { + return null; + } else { + throw new Error("unsure of how to jsonify object of type " + typeof thing); + } + } + + function jsonThing(thing) { + return JSON.stringify(ensureStringed(thing)); //TODO: jquery??? + } + + var migrations = [ + { + version: 'v1', + migrate: function migrateV1(data) { + var sessions = data.sessions; + var key; + if (data.registrationId) { + for (key in sessions) { + if (!sessions[key].registrationId) { + sessions[key].registrationId = data.registrationId; + } + } + } else { + for (key in sessions) { + if (sessions[key].indexInfo.closed === -1) { + console.log('V1 session storage migration error: registrationId', + data.registrationId, 'for open session version', + data.version); + } + } + } + } + } + ]; + + function migrate(data) { + var run = (data.version === undefined); + for (var i=0; i < migrations.length; ++i) { + if (run) { + migrations[i].migrate(data); + } else if (migrations[i].version === data.version) { + run = true; + } + } + if (!run) { + throw new Error("Error migrating SessionRecord"); + } + } + + var SessionRecord = function() { + this.sessions = {}; + this.version = SESSION_RECORD_VERSION; + }; + + SessionRecord.deserialize = function(serialized) { + var data = JSON.parse(serialized); + if (data.version !== SESSION_RECORD_VERSION) { migrate(data); } + + var record = new SessionRecord(); + record.sessions = data.sessions; + if (record.sessions === undefined || record.sessions === null || typeof record.sessions !== "object" || Array.isArray(record.sessions)) { + throw new Error("Error deserializing SessionRecord"); + } + return record; + }; + + SessionRecord.prototype = { + serialize: function() { + return jsonThing({ + sessions : this.sessions, + version : this.version + }); + }, + haveOpenSession: function() { + var openSession = this.getOpenSession(); + return (!!openSession && typeof openSession.registrationId === 'number'); + }, + + getSessionByBaseKey: function(baseKey) { + var session = this.sessions[util.toString(baseKey)]; + if (session && session.indexInfo.baseKeyType === Internal.BaseKeyType.OURS) { + console.log("Tried to lookup a session using our basekey"); + return undefined; + } + return session; + }, + getSessionByRemoteEphemeralKey: function(remoteEphemeralKey) { + this.detectDuplicateOpenSessions(); + var sessions = this.sessions; + + var searchKey = util.toString(remoteEphemeralKey); + + var openSession; + for (var key in sessions) { + if (sessions[key].indexInfo.closed == -1) { + openSession = sessions[key]; + } + if (sessions[key][searchKey] !== undefined) { + return sessions[key]; + } + } + if (openSession !== undefined) { + return openSession; + } + + return undefined; + }, + getOpenSession: function() { + var sessions = this.sessions; + if (sessions === undefined) { + return undefined; + } + + this.detectDuplicateOpenSessions(); + + for (var key in sessions) { + if (sessions[key].indexInfo.closed == -1) { + return sessions[key]; + } + } + return undefined; + }, + detectDuplicateOpenSessions: function() { + var openSession; + var sessions = this.sessions; + for (var key in sessions) { + if (sessions[key].indexInfo.closed == -1) { + if (openSession !== undefined) { + throw new Error("Datastore inconsistensy: multiple open sessions"); + } + openSession = sessions[key]; + } + } + }, + updateSessionState: function(session) { + var sessions = this.sessions; + + this.removeOldChains(session); + + sessions[util.toString(session.indexInfo.baseKey)] = session; + + this.removeOldSessions(); + + }, + getSessions: function() { + // return an array of sessions ordered by time closed, + // followed by the open session + var list = []; + var openSession; + for (var k in this.sessions) { + if (this.sessions[k].indexInfo.closed === -1) { + openSession = this.sessions[k]; + } else { + list.push(this.sessions[k]); + } + } + list = list.sort(function(s1, s2) { + return s1.indexInfo.closed - s2.indexInfo.closed; + }); + if (openSession) { + list.push(openSession); + } + return list; + }, + archiveCurrentState: function() { + var open_session = this.getOpenSession(); + if (open_session !== undefined) { + console.log('closing session'); + open_session.indexInfo.closed = Date.now(); + this.updateSessionState(open_session); + } + }, + promoteState: function(session) { + console.log('promoting session'); + session.indexInfo.closed = -1; + }, + removeOldChains: function(session) { + // Sending ratchets are always removed when we step because we never need them again + // Receiving ratchets are added to the oldRatchetList, which we parse + // here and remove all but the last ten. + while (session.oldRatchetList.length > OLD_RATCHETS_MAX_LENGTH) { + var index = 0; + var oldest = session.oldRatchetList[0]; + for (var i = 0; i < session.oldRatchetList.length; i++) { + if (session.oldRatchetList[i].added < oldest.added) { + oldest = session.oldRatchetList[i]; + index = i; + } + } + console.log("Deleting chain closed at", oldest.added); + delete session[util.toString(oldest.ephemeralKey)]; + session.oldRatchetList.splice(index, 1); + } + }, + removeOldSessions: function() { + // Retain only the last 20 sessions + var sessions = this.sessions; + var oldestBaseKey, oldestSession; + while (Object.keys(sessions).length > ARCHIVED_STATES_MAX_LENGTH) { + for (var key in sessions) { + var session = sessions[key]; + if (session.indexInfo.closed > -1 && // session is closed + (!oldestSession || session.indexInfo.closed < oldestSession.indexInfo.closed)) { + oldestBaseKey = key; + oldestSession = session; + } + } + console.log("Deleting session closed at", oldestSession.indexInfo.closed); + delete sessions[util.toString(oldestBaseKey)]; + } + }, + deleteAllSessions: function() { + // Used primarily in session reset scenarios, where we really delete sessions + this.sessions = {}; + } + }; + + return SessionRecord; +}(); + +function SignalProtocolAddress(name, deviceId) { + this.name = name; + this.deviceId = deviceId; +} + +SignalProtocolAddress.prototype = { + getName: function() { + return this.name; + }, + getDeviceId: function() { + return this.deviceId; + }, + toString: function() { + return this.name + '.' + this.deviceId; + }, + equals: function(other) { + if (!(other instanceof SignalProtocolAddress)) { return false; } + return other.name === this.name && other.deviceId === this.deviceId; + } +}; + +libsignal.SignalProtocolAddress = function(name, deviceId) { + var address = new SignalProtocolAddress(name, deviceId); + + ['getName', 'getDeviceId', 'toString', 'equals'].forEach(function(method) { + this[method] = address[method].bind(address); + }.bind(this)); +}; + +libsignal.SignalProtocolAddress.fromString = function(encodedAddress) { + if (typeof encodedAddress !== 'string' || !encodedAddress.match(/.*\.\d+/)) { + throw new Error('Invalid SignalProtocolAddress string'); + } + var parts = encodedAddress.split('.'); + return new libsignal.SignalProtocolAddress(parts[0], parseInt(parts[1])); +}; + +function SessionBuilder(storage, remoteAddress) { + this.remoteAddress = remoteAddress; + this.storage = storage; +} + +SessionBuilder.prototype = { + processPreKey: function(device) { + return Internal.SessionLock.queueJobForNumber(this.remoteAddress.toString(), function() { + return this.storage.isTrustedIdentity( + this.remoteAddress.getName(), device.identityKey, this.storage.Direction.SENDING + ).then(function(trusted) { + if (!trusted) { + throw new Error('Identity key changed'); + } + + return Internal.crypto.Ed25519Verify( + device.identityKey, + device.signedPreKey.publicKey, + device.signedPreKey.signature + ); + }).then(function() { + return Internal.crypto.createKeyPair(); + }).then(function(baseKey) { + var devicePreKey; + if (device.preKey) { + devicePreKey = device.preKey.publicKey; + } + return this.initSession(true, baseKey, undefined, device.identityKey, + devicePreKey, device.signedPreKey.publicKey, device.registrationId + ).then(function(session) { + session.pendingPreKey = { + signedKeyId : device.signedPreKey.keyId, + baseKey : baseKey.pubKey + }; + if (device.preKey) { + session.pendingPreKey.preKeyId = device.preKey.keyId; + } + return session; + }); + }.bind(this)).then(function(session) { + var address = this.remoteAddress.toString(); + return this.storage.loadSession(address).then(function(serialized) { + var record; + if (serialized !== undefined) { + record = Internal.SessionRecord.deserialize(serialized); + } else { + record = new Internal.SessionRecord(); + } + + record.archiveCurrentState(); + record.updateSessionState(session); + return Promise.all([ + this.storage.storeSession(address, record.serialize()), + this.storage.saveIdentity(this.remoteAddress.toString(), session.indexInfo.remoteIdentityKey) + ]); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }, + processV3: function(record, message) { + var preKeyPair, signedPreKeyPair, session; + return this.storage.isTrustedIdentity( + this.remoteAddress.getName(), message.identityKey.toArrayBuffer(), this.storage.Direction.RECEIVING + ).then(function(trusted) { + if (!trusted) { + var e = new Error('Unknown identity key'); + e.identityKey = message.identityKey.toArrayBuffer(); + throw e; + } + return Promise.all([ + this.storage.loadPreKey(message.preKeyId), + this.storage.loadSignedPreKey(message.signedPreKeyId), + ]).then(function(results) { + preKeyPair = results[0]; + signedPreKeyPair = results[1]; + }); + }.bind(this)).then(function() { + session = record.getSessionByBaseKey(message.baseKey); + if (session) { + console.log("Duplicate PreKeyMessage for session"); + return; + } + + session = record.getOpenSession(); + + if (signedPreKeyPair === undefined) { + // Session may or may not be the right one, but if its not, we + // can't do anything about it ...fall through and let + // decryptWhisperMessage handle that case + if (session !== undefined && session.currentRatchet !== undefined) { + return; + } else { + throw new Error("Missing Signed PreKey for PreKeyWhisperMessage"); + } + } + + if (session !== undefined) { + record.archiveCurrentState(); + } + if (message.preKeyId && !preKeyPair) { + console.log('Invalid prekey id', message.preKeyId); + } + return this.initSession(false, preKeyPair, signedPreKeyPair, + message.identityKey.toArrayBuffer(), + message.baseKey.toArrayBuffer(), undefined, message.registrationId + ).then(function(new_session) { + // Note that the session is not actually saved until the very + // end of decryptWhisperMessage ... to ensure that the sender + // actually holds the private keys for all reported pubkeys + record.updateSessionState(new_session); + return this.storage.saveIdentity(this.remoteAddress.toString(), message.identityKey.toArrayBuffer()).then(function() { + return message.preKeyId; + }); + }.bind(this)); + }.bind(this)); + }, + initSession: function(isInitiator, ourEphemeralKey, ourSignedKey, + theirIdentityPubKey, theirEphemeralPubKey, + theirSignedPubKey, registrationId) { + return this.storage.getIdentityKeyPair().then(function(ourIdentityKey) { + if (isInitiator) { + if (ourSignedKey !== undefined) { + throw new Error("Invalid call to initSession"); + } + ourSignedKey = ourEphemeralKey; + } else { + if (theirSignedPubKey !== undefined) { + throw new Error("Invalid call to initSession"); + } + theirSignedPubKey = theirEphemeralPubKey; + } + + var sharedSecret; + if (ourEphemeralKey === undefined || theirEphemeralPubKey === undefined) { + sharedSecret = new Uint8Array(32 * 4); + } else { + sharedSecret = new Uint8Array(32 * 5); + } + + for (var i = 0; i < 32; i++) { + sharedSecret[i] = 0xff; + } + + return Promise.all([ + Internal.crypto.ECDHE(theirSignedPubKey, ourIdentityKey.privKey), + Internal.crypto.ECDHE(theirIdentityPubKey, ourSignedKey.privKey), + Internal.crypto.ECDHE(theirSignedPubKey, ourSignedKey.privKey) + ]).then(function(ecRes) { + if (isInitiator) { + sharedSecret.set(new Uint8Array(ecRes[0]), 32); + sharedSecret.set(new Uint8Array(ecRes[1]), 32 * 2); + } else { + sharedSecret.set(new Uint8Array(ecRes[0]), 32 * 2); + sharedSecret.set(new Uint8Array(ecRes[1]), 32); + } + sharedSecret.set(new Uint8Array(ecRes[2]), 32 * 3); + + if (ourEphemeralKey !== undefined && theirEphemeralPubKey !== undefined) { + return Internal.crypto.ECDHE( + theirEphemeralPubKey, ourEphemeralKey.privKey + ).then(function(ecRes4) { + sharedSecret.set(new Uint8Array(ecRes4), 32 * 4); + }); + } + }).then(function() { + return Internal.HKDF(sharedSecret.buffer, new ArrayBuffer(32), "WhisperText"); + }).then(function(masterKey) { + var session = { + registrationId: registrationId, + currentRatchet: { + rootKey : masterKey[0], + lastRemoteEphemeralKey : theirSignedPubKey, + previousCounter : 0 + }, + indexInfo: { + remoteIdentityKey : theirIdentityPubKey, + closed : -1 + }, + oldRatchetList: [] + }; + + // If we're initiating we go ahead and set our first sending ephemeral key now, + // otherwise we figure it out when we first maybeStepRatchet with the remote's ephemeral key + if (isInitiator) { + session.indexInfo.baseKey = ourEphemeralKey.pubKey; + session.indexInfo.baseKeyType = Internal.BaseKeyType.OURS; + return Internal.crypto.createKeyPair().then(function(ourSendingEphemeralKey) { + session.currentRatchet.ephemeralKeyPair = ourSendingEphemeralKey; + return this.calculateSendingRatchet(session, theirSignedPubKey).then(function() { + return session; + }); + }.bind(this)); + } else { + session.indexInfo.baseKey = theirEphemeralPubKey; + session.indexInfo.baseKeyType = Internal.BaseKeyType.THEIRS; + session.currentRatchet.ephemeralKeyPair = ourSignedKey; + return session; + } + }.bind(this)); + }.bind(this)); + }, + calculateSendingRatchet: function(session, remoteKey) { + var ratchet = session.currentRatchet; + + return Internal.crypto.ECDHE( + remoteKey, util.toArrayBuffer(ratchet.ephemeralKeyPair.privKey) + ).then(function(sharedSecret) { + return Internal.HKDF( + sharedSecret, util.toArrayBuffer(ratchet.rootKey), "WhisperRatchet" + ); + }).then(function(masterKey) { + session[util.toString(ratchet.ephemeralKeyPair.pubKey)] = { + messageKeys : {}, + chainKey : { counter : -1, key : masterKey[1] }, + chainType : Internal.ChainType.SENDING + }; + ratchet.rootKey = masterKey[0]; + }); + } + +}; + +libsignal.SessionBuilder = function (storage, remoteAddress) { + var builder = new SessionBuilder(storage, remoteAddress); + this.processPreKey = builder.processPreKey.bind(builder); + this.processV3 = builder.processV3.bind(builder); +}; + +function SessionCipher(storage, remoteAddress) { + this.remoteAddress = remoteAddress; + this.storage = storage; +} + +SessionCipher.prototype = { + getRecord: function(encodedNumber) { + return this.storage.loadSession(encodedNumber).then(function(serialized) { + if (serialized === undefined) { + return undefined; + } + return Internal.SessionRecord.deserialize(serialized); + }); + }, + encrypt: function(buffer, encoding) { + buffer = dcodeIO.ByteBuffer.wrap(buffer, encoding).toArrayBuffer(); + return Internal.SessionLock.queueJobForNumber(this.remoteAddress.toString(), function() { + if (!(buffer instanceof ArrayBuffer)) { + throw new Error("Expected buffer to be an ArrayBuffer"); + } + + var address = this.remoteAddress.toString(); + var ourIdentityKey, myRegistrationId, record, session, chain; + + var msg = new Internal.protobuf.WhisperMessage(); + + return Promise.all([ + this.storage.getIdentityKeyPair(), + this.storage.getLocalRegistrationId(), + this.getRecord(address) + ]).then(function(results) { + ourIdentityKey = results[0]; + myRegistrationId = results[1]; + record = results[2]; + if (!record) { + throw new Error("No record for " + address); + } + session = record.getOpenSession(); + if (!session) { + throw new Error("No session to encrypt message for " + address); + } + + msg.ephemeralKey = util.toArrayBuffer( + session.currentRatchet.ephemeralKeyPair.pubKey + ); + chain = session[util.toString(msg.ephemeralKey)]; + if (chain.chainType === Internal.ChainType.RECEIVING) { + throw new Error("Tried to encrypt on a receiving chain"); + } + + return this.fillMessageKeys(chain, chain.chainKey.counter + 1); + }.bind(this)).then(function() { + return Internal.HKDF( + util.toArrayBuffer(chain.messageKeys[chain.chainKey.counter]), + new ArrayBuffer(32), "WhisperMessageKeys"); + }).then(function(keys) { + delete chain.messageKeys[chain.chainKey.counter]; + msg.counter = chain.chainKey.counter; + msg.previousCounter = session.currentRatchet.previousCounter; + + return Internal.crypto.encrypt( + keys[0], buffer, keys[2].slice(0, 16) + ).then(function(ciphertext) { + msg.ciphertext = ciphertext; + var encodedMsg = msg.toArrayBuffer(); + + var macInput = new Uint8Array(encodedMsg.byteLength + 33*2 + 1); + macInput.set(new Uint8Array(util.toArrayBuffer(ourIdentityKey.pubKey))); + macInput.set(new Uint8Array(util.toArrayBuffer(session.indexInfo.remoteIdentityKey)), 33); + macInput[33*2] = (3 << 4) | 3; + macInput.set(new Uint8Array(encodedMsg), 33*2 + 1); + + return Internal.crypto.sign(keys[1], macInput.buffer).then(function(mac) { + var result = new Uint8Array(encodedMsg.byteLength + 9); + result[0] = (3 << 4) | 3; + result.set(new Uint8Array(encodedMsg), 1); + result.set(new Uint8Array(mac, 0, 8), encodedMsg.byteLength + 1); + + return this.storage.isTrustedIdentity( + this.remoteAddress.getName(), util.toArrayBuffer(session.indexInfo.remoteIdentityKey), this.storage.Direction.SENDING + ).then(function(trusted) { + if (!trusted) { + throw new Error('Identity key changed'); + } + }).then(function() { + return this.storage.saveIdentity(this.remoteAddress.toString(), session.indexInfo.remoteIdentityKey); + }.bind(this)).then(function() { + record.updateSessionState(session); + return this.storage.storeSession(address, record.serialize()).then(function() { + return result; + }); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }.bind(this)).then(function(message) { + if (session.pendingPreKey !== undefined) { + var preKeyMsg = new Internal.protobuf.PreKeyWhisperMessage(); + preKeyMsg.identityKey = util.toArrayBuffer(ourIdentityKey.pubKey); + preKeyMsg.registrationId = myRegistrationId; + + preKeyMsg.baseKey = util.toArrayBuffer(session.pendingPreKey.baseKey); + if (session.pendingPreKey.preKeyId) { + preKeyMsg.preKeyId = session.pendingPreKey.preKeyId; + } + preKeyMsg.signedPreKeyId = session.pendingPreKey.signedKeyId; + + preKeyMsg.message = message; + var result = String.fromCharCode((3 << 4) | 3) + util.toString(preKeyMsg.encode()); + return { + type : 3, + body : result, + registrationId : session.registrationId + }; + + } else { + return { + type : 1, + body : util.toString(message), + registrationId : session.registrationId + }; + } + }); + }.bind(this)); + }, + decryptWithSessionList: function(buffer, sessionList, errors) { + // Iterate recursively through the list, attempting to decrypt + // using each one at a time. Stop and return the result if we get + // a valid result + if (sessionList.length === 0) { + return Promise.reject(errors[0]); + } + + var session = sessionList.pop(); + return this.doDecryptWhisperMessage(buffer, session).then(function(plaintext) { + return { plaintext: plaintext, session: session }; + }).catch(function(e) { + if (e.name === 'MessageCounterError') { + return Promise.reject(e); + } + + errors.push(e); + return this.decryptWithSessionList(buffer, sessionList, errors); + }.bind(this)); + }, + decryptWhisperMessage: function(buffer, encoding) { + buffer = dcodeIO.ByteBuffer.wrap(buffer, encoding).toArrayBuffer(); + return Internal.SessionLock.queueJobForNumber(this.remoteAddress.toString(), function() { + var address = this.remoteAddress.toString(); + return this.getRecord(address).then(function(record) { + if (!record) { + throw new Error("No record for device " + address); + } + var errors = []; + return this.decryptWithSessionList(buffer, record.getSessions(), errors).then(function(result) { + return this.getRecord(address).then(function(record) { + if (result.session.indexInfo.baseKey !== record.getOpenSession().indexInfo.baseKey) { + record.archiveCurrentState(); + record.promoteState(result.session); + } + + return this.storage.isTrustedIdentity( + this.remoteAddress.getName(), util.toArrayBuffer(result.session.indexInfo.remoteIdentityKey), this.storage.Direction.RECEIVING + ).then(function(trusted) { + if (!trusted) { + throw new Error('Identity key changed'); + } + }).then(function() { + return this.storage.saveIdentity(this.remoteAddress.toString(), result.session.indexInfo.remoteIdentityKey); + }.bind(this)).then(function() { + record.updateSessionState(result.session); + return this.storage.storeSession(address, record.serialize()).then(function() { + return result.plaintext; + }); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }, + decryptPreKeyWhisperMessage: function(buffer, encoding) { + buffer = dcodeIO.ByteBuffer.wrap(buffer, encoding); + var version = buffer.readUint8(); + if ((version & 0xF) > 3 || (version >> 4) < 3) { // min version > 3 or max version < 3 + throw new Error("Incompatible version number on PreKeyWhisperMessage"); + } + return Internal.SessionLock.queueJobForNumber(this.remoteAddress.toString(), function() { + var address = this.remoteAddress.toString(); + return this.getRecord(address).then(function(record) { + var preKeyProto = Internal.protobuf.PreKeyWhisperMessage.decode(buffer); + if (!record) { + if (preKeyProto.registrationId === undefined) { + throw new Error("No registrationId"); + } + record = new Internal.SessionRecord( + preKeyProto.registrationId + ); + } + var builder = new SessionBuilder(this.storage, this.remoteAddress); + // isTrustedIdentity is called within processV3, no need to call it here + return builder.processV3(record, preKeyProto).then(function(preKeyId) { + var session = record.getSessionByBaseKey(preKeyProto.baseKey); + return this.doDecryptWhisperMessage( + preKeyProto.message.toArrayBuffer(), session + ).then(function(plaintext) { + record.updateSessionState(session); + return this.storage.storeSession(address, record.serialize()).then(function() { + if (preKeyId !== undefined && preKeyId !== null) { + return this.storage.removePreKey(preKeyId); + } + }.bind(this)).then(function() { + return plaintext; + }); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }, + doDecryptWhisperMessage: function(messageBytes, session) { + if (!(messageBytes instanceof ArrayBuffer)) { + throw new Error("Expected messageBytes to be an ArrayBuffer"); + } + var version = (new Uint8Array(messageBytes))[0]; + if ((version & 0xF) > 3 || (version >> 4) < 3) { // min version > 3 or max version < 3 + throw new Error("Incompatible version number on WhisperMessage"); + } + var messageProto = messageBytes.slice(1, messageBytes.byteLength- 8); + var mac = messageBytes.slice(messageBytes.byteLength - 8, messageBytes.byteLength); + + var message = Internal.protobuf.WhisperMessage.decode(messageProto); + var remoteEphemeralKey = message.ephemeralKey.toArrayBuffer(); + + if (session === undefined) { + return Promise.reject(new Error("No session found to decrypt message from " + this.remoteAddress.toString())); + } + if (session.indexInfo.closed != -1) { + console.log('decrypting message for closed session'); + } + + return this.maybeStepRatchet(session, remoteEphemeralKey, message.previousCounter).then(function() { + var chain = session[util.toString(message.ephemeralKey)]; + if (chain.chainType === Internal.ChainType.SENDING) { + throw new Error("Tried to decrypt on a sending chain"); + } + + return this.fillMessageKeys(chain, message.counter).then(function() { + var messageKey = chain.messageKeys[message.counter]; + if (messageKey === undefined) { + var e = new Error("Message key not found. The counter was repeated or the key was not filled."); + e.name = 'MessageCounterError'; + throw e; + } + delete chain.messageKeys[message.counter]; + return Internal.HKDF(util.toArrayBuffer(messageKey), new ArrayBuffer(32), "WhisperMessageKeys"); + }); + }.bind(this)).then(function(keys) { + return this.storage.getIdentityKeyPair().then(function(ourIdentityKey) { + + var macInput = new Uint8Array(messageProto.byteLength + 33*2 + 1); + macInput.set(new Uint8Array(util.toArrayBuffer(session.indexInfo.remoteIdentityKey))); + macInput.set(new Uint8Array(util.toArrayBuffer(ourIdentityKey.pubKey)), 33); + macInput[33*2] = (3 << 4) | 3; + macInput.set(new Uint8Array(messageProto), 33*2 + 1); + + return Internal.verifyMAC(macInput.buffer, keys[1], mac, 8); + }.bind(this)).then(function() { + return Internal.crypto.decrypt(keys[0], message.ciphertext.toArrayBuffer(), keys[2].slice(0, 16)); + }); + }.bind(this)).then(function(plaintext) { + delete session.pendingPreKey; + return plaintext; + }); + }, + fillMessageKeys: function(chain, counter) { + if (chain.chainKey.counter >= counter) { + return Promise.resolve(); // Already calculated + } + + if (counter - chain.chainKey.counter > 2000) { + throw new Error('Over 2000 messages into the future!'); + } + + if (chain.chainKey.key === undefined) { + throw new Error("Got invalid request to extend chain after it was already closed"); + } + + var key = util.toArrayBuffer(chain.chainKey.key); + var byteArray = new Uint8Array(1); + byteArray[0] = 1; + return Internal.crypto.sign(key, byteArray.buffer).then(function(mac) { + byteArray[0] = 2; + return Internal.crypto.sign(key, byteArray.buffer).then(function(key) { + chain.messageKeys[chain.chainKey.counter + 1] = mac; + chain.chainKey.key = key; + chain.chainKey.counter += 1; + return this.fillMessageKeys(chain, counter); + }.bind(this)); + }.bind(this)); + }, + maybeStepRatchet: function(session, remoteKey, previousCounter) { + if (session[util.toString(remoteKey)] !== undefined) { + return Promise.resolve(); + } + + console.log('New remote ephemeral key'); + var ratchet = session.currentRatchet; + + return Promise.resolve().then(function() { + var previousRatchet = session[util.toString(ratchet.lastRemoteEphemeralKey)]; + if (previousRatchet !== undefined) { + return this.fillMessageKeys(previousRatchet, previousCounter).then(function() { + delete previousRatchet.chainKey.key; + session.oldRatchetList[session.oldRatchetList.length] = { + added : Date.now(), + ephemeralKey : ratchet.lastRemoteEphemeralKey + }; + }); + } + }.bind(this)).then(function() { + return this.calculateRatchet(session, remoteKey, false).then(function() { + // Now swap the ephemeral key and calculate the new sending chain + var previousRatchet = util.toString(ratchet.ephemeralKeyPair.pubKey); + if (session[previousRatchet] !== undefined) { + ratchet.previousCounter = session[previousRatchet].chainKey.counter; + delete session[previousRatchet]; + } + + return Internal.crypto.createKeyPair().then(function(keyPair) { + ratchet.ephemeralKeyPair = keyPair; + return this.calculateRatchet(session, remoteKey, true).then(function() { + ratchet.lastRemoteEphemeralKey = remoteKey; + }.bind(this)); + }.bind(this)); + }.bind(this)); + }.bind(this)); + }, + calculateRatchet: function(session, remoteKey, sending) { + var ratchet = session.currentRatchet; + + return Internal.crypto.ECDHE(remoteKey, util.toArrayBuffer(ratchet.ephemeralKeyPair.privKey)).then(function(sharedSecret) { + return Internal.HKDF(sharedSecret, util.toArrayBuffer(ratchet.rootKey), "WhisperRatchet").then(function(masterKey) { + var ephemeralPublicKey; + if (sending) { + ephemeralPublicKey = ratchet.ephemeralKeyPair.pubKey; + } + else { + ephemeralPublicKey = remoteKey; + } + session[util.toString(ephemeralPublicKey)] = { + messageKeys: {}, + chainKey: { counter: -1, key: masterKey[1] }, + chainType: sending ? Internal.ChainType.SENDING : Internal.ChainType.RECEIVING + }; + ratchet.rootKey = masterKey[0]; + }); + }); + }, + getRemoteRegistrationId: function() { + return Internal.SessionLock.queueJobForNumber(this.remoteAddress.toString(), function() { + return this.getRecord(this.remoteAddress.toString()).then(function(record) { + if (record === undefined) { + return undefined; + } + var openSession = record.getOpenSession(); + if (openSession === undefined) { + return null; + } + return openSession.registrationId; + }); + }.bind(this)); + }, + hasOpenSession: function() { + return Internal.SessionLock.queueJobForNumber(this.remoteAddress.toString(), function() { + return this.getRecord(this.remoteAddress.toString()).then(function(record) { + if (record === undefined) { + return false; + } + return record.haveOpenSession(); + }); + }.bind(this)); + }, + closeOpenSessionForDevice: function() { + var address = this.remoteAddress.toString(); + return Internal.SessionLock.queueJobForNumber(address, function() { + return this.getRecord(address).then(function(record) { + if (record === undefined || record.getOpenSession() === undefined) { + return; + } + + record.archiveCurrentState(); + return this.storage.storeSession(address, record.serialize()); + }.bind(this)); + }.bind(this)); + }, + deleteAllSessionsForDevice: function() { + // Used in session reset scenarios, where we really need to delete + var address = this.remoteAddress.toString(); + return Internal.SessionLock.queueJobForNumber(address, function() { + return this.getRecord(address).then(function(record) { + if (record === undefined) { + return; + } + + record.deleteAllSessions(); + return this.storage.storeSession(address, record.serialize()); + }.bind(this)); + }.bind(this)); + } +}; + +libsignal.SessionCipher = function(storage, remoteAddress) { + var cipher = new SessionCipher(storage, remoteAddress); + + // returns a Promise that resolves to a ciphertext object + this.encrypt = cipher.encrypt.bind(cipher); + + // returns a Promise that inits a session if necessary and resolves + // to a decrypted plaintext array buffer + this.decryptPreKeyWhisperMessage = cipher.decryptPreKeyWhisperMessage.bind(cipher); + + // returns a Promise that resolves to decrypted plaintext array buffer + this.decryptWhisperMessage = cipher.decryptWhisperMessage.bind(cipher); + + this.getRemoteRegistrationId = cipher.getRemoteRegistrationId.bind(cipher); + this.hasOpenSession = cipher.hasOpenSession.bind(cipher); + this.closeOpenSessionForDevice = cipher.closeOpenSessionForDevice.bind(cipher); + this.deleteAllSessionsForDevice = cipher.deleteAllSessionsForDevice.bind(cipher); +}; + + /* + * jobQueue manages multiple queues indexed by device to serialize + * session io ops on the database. + */ +;(function() { +'use strict'; + +Internal.SessionLock = {}; + +var jobQueue = {}; + +Internal.SessionLock.queueJobForNumber = function queueJobForNumber(number, runJob) { + var runPrevious = jobQueue[number] || Promise.resolve(); + var runCurrent = jobQueue[number] = runPrevious.then(runJob, runJob); + runCurrent.then(function() { + if (jobQueue[number] === runCurrent) { + delete jobQueue[number]; + } + }); + return runCurrent; +}; + +})(); + +(function() { + var VERSION = 0; + + function iterateHash(data, key, count) { + data = dcodeIO.ByteBuffer.concat([data, key]).toArrayBuffer(); + return Internal.crypto.hash(data).then(function(result) { + if (--count === 0) { + return result; + } else { + return iterateHash(result, key, count); + } + }); + } + + function shortToArrayBuffer(number) { + return new Uint16Array([number]).buffer; + } + + function getEncodedChunk(hash, offset) { + var chunk = ( hash[offset] * Math.pow(2,32) + + hash[offset+1] * Math.pow(2,24) + + hash[offset+2] * Math.pow(2,16) + + hash[offset+3] * Math.pow(2,8) + + hash[offset+4] ) % 100000; + var s = chunk.toString(); + while (s.length < 5) { + s = '0' + s; + } + return s; + } + + function getDisplayStringFor(identifier, key, iterations) { + var bytes = dcodeIO.ByteBuffer.concat([ + shortToArrayBuffer(VERSION), key, identifier + ]).toArrayBuffer(); + return iterateHash(bytes, key, iterations).then(function(output) { + output = new Uint8Array(output); + return getEncodedChunk(output, 0) + + getEncodedChunk(output, 5) + + getEncodedChunk(output, 10) + + getEncodedChunk(output, 15) + + getEncodedChunk(output, 20) + + getEncodedChunk(output, 25); + }); + } + + libsignal.FingerprintGenerator = function(iterations) { + this.iterations = iterations; + }; + libsignal.FingerprintGenerator.prototype = { + createFor: function(localIdentifier, localIdentityKey, + remoteIdentifier, remoteIdentityKey) { + if (typeof localIdentifier !== 'string' || + typeof remoteIdentifier !== 'string' || + !(localIdentityKey instanceof ArrayBuffer) || + !(remoteIdentityKey instanceof ArrayBuffer)) { + + throw new Error('Invalid arguments'); + } + + return Promise.all([ + getDisplayStringFor(localIdentifier, localIdentityKey, this.iterations), + getDisplayStringFor(remoteIdentifier, remoteIdentityKey, this.iterations) + ]).then(function(fingerprints) { + return fingerprints.sort().join(''); + }); + } + }; + +})(); + + +})(); \ No newline at end of file diff --git a/main.js b/main.js index 31c5063..e4f8298 100644 --- a/main.js +++ b/main.js @@ -15,7 +15,8 @@ var defaultsettings = tagautocomplete: false, titleinaccentcolor: false, enablenetwork: false, - titlebydefault: false + titlebydefault: false, + chat: true }; //builtin @@ -344,7 +345,7 @@ var commands = [ action: downloadallvaults }, { - hint: "Open revue de presse", + hint: "Open press review", action: loadreview, shortcut: "ctrl+r" }]; @@ -1234,6 +1235,14 @@ function init() md.focus(); } } + + if (settings.chat) + { + converse.initialize({ + bosh_service_url: 'https://conversejs.org/http-bind/', + show_controlbox_by_default: true + }); + } } function togglepassword() @@ -1641,6 +1650,7 @@ function md2html(content) converter.setOption("simplifiedAutoLink", true); converter.setOption("simpleLineBreaks", true); converter.setOption("metadata", true); + converter.setOption("openLinksInNewWindow", true); var html = converter.makeHtml(content); @@ -1991,7 +2001,7 @@ function loadtodo() function loadreview() { - loadnote("Revue de presse"); + loadnote("press review"); } function loadquicknote() @@ -2483,7 +2493,7 @@ function loadnote(name) localdata.unshift(note); } - if (!preview.hidden || (preview.hidden && note.title == "Revue de presse")) + if (!preview.hidden || (preview.hidden && note.title == "press review")) { togglepreview(); }